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(b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/b/bc/McMillan_Landau_theory_PRB_75.pdf Landau theory of CDW by McMillan, PRB,12,1187,1975] '''Related to Pinning of CDW:''' [http://x-ray.ucsd.edu/mediawiki/images/2/2f/Fukuyama_pinning_theory_PRB_78.pdf Fukuyama and Lee,Part-I PRB,17,535,1978] [http://x-ray.ucsd.edu/mediawiki/images/5/53/Fukuyama_pinning_theory_II_PRB_78.pdf Lee and Fukuyama,Part-II PRB,17,542,1978] [http://x-ray.ucsd.edu/mediawiki/images/1/10/Littlewood_pinning_PRL_82.pdf Littlewood and Rice,PRB,48,44,1982] [http://x-ray.ucsd.edu/mediawiki/images/f/f2/Tucker_pinning_PRB_89.pdf Tucker,PRB,40,5447,1989] [http://x-ray.ucsd.edu/mediawiki/images/1/12/Ravy_pinning_JdePhyIV_93.pdf Ravy and Pouget,Journal De Physique,C2-109,1993] [http://x-ray.ucsd.edu/mediawiki/images/5/5c/Aichmann_pinning_PhysicaB_96.pdf Aichmann,Physica B,217,1,1996] [http://x-ray.ucsd.edu/mediawiki/images/7/7f/Dai_pinning_PRL_91.pdf Dai et.al,PRL,66,3183,1991] 46ea3f4192d652775b3a0d4817e83d4a392ecb6c 276 275 2009-04-22T01:11:32Z Mohanty 4 '''TaS₂related:''' [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/b/bc/McMillan_Landau_theory_PRB_75.pdf Landau theory of CDW by McMillan, PRB,12,1187,1975] '''Related to Pinning of CDW:''' [http://x-ray.ucsd.edu/mediawiki/images/2/2f/Fukuyama_pinning_theory_PRB_78.pdf Fukuyama and Lee,Part-I PRB,17,535,1978] [http://x-ray.ucsd.edu/mediawiki/images/5/53/Fukuyama_pinning_theory_II_PRB_78.pdf Lee and Fukuyama,Part-II PRB,17,542,1978] [http://x-ray.ucsd.edu/mediawiki/images/1/10/Littlewood_pinning_PRL_82.pdf Littlewood and Rice,PRB,48,44,1982] [http://x-ray.ucsd.edu/mediawiki/images/f/f2/Tucker_pinning_PRB_89.pdf Tucker,PRB,40,5447,1989] [http://x-ray.ucsd.edu/mediawiki/images/1/12/Ravy_pinning_JdePhyIV_93.pdf Ravy and Pouget,Journal De Physique,C2-109,1993] [http://x-ray.ucsd.edu/mediawiki/images/5/5c/Aichmann_pinning_PhysicaB_96.pdf Aichmann,Physica B,217,1,1996] [http://x-ray.ucsd.edu/mediawiki/images/7/7f/Dai_pinning_PRL_91.pdf Dai et.al,PRL,66,3183,1991] b905923bd387aef4eb8467595c1f7daeb6b3b45a 275 267 2009-04-22T01:08:58Z Mohanty 4 TaS₂related: [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/b/bc/McMillan_Landau_theory_PRB_75.pdf Landau theory of CDW by McMillan, PRB,12,1187,1975] Related to Pinning of CDW: [http://x-ray.ucsd.edu/mediawiki/images/2/2f/Fukuyama_pinning_theory_PRB_78.pdf Fukuyama and Lee,Part-I PRB,17,535,1978] [http://x-ray.ucsd.edu/mediawiki/images/5/53/Fukuyama_pinning_theory_II_PRB_78.pdf Lee and Fukuyama,Part-II PRB,17,542,1978] [http://x-ray.ucsd.edu/mediawiki/images/1/10/Littlewood_pinning_PRL_82.pdf Littlewood and Rice,PRB,48,44,1982] [http://x-ray.ucsd.edu/mediawiki/images/f/f2/Tucker_pinning_PRB_89.pdf Tucker,PRB,40,5447,1989] [http://x-ray.ucsd.edu/mediawiki/images/1/12/Ravy_pinning_JdePhyIV_93.pdf Ravy and Pouget,Journal De Physique,C2-109,1993] [http://x-ray.ucsd.edu/mediawiki/images/5/5c/Aichmann_pinning_PhysicaB_96.pdf Aichmann,Physica B,217,1,1996] [http://x-ray.ucsd.edu/mediawiki/images/7/7f/Dai_pinning_PRL_91.pdf Dai et.al,PRL,66,3183,1991] d15ab34c759d4f803a0b6448a45f709ac31578a7 267 266 2009-04-22T00:58:16Z Mohanty 4 TaS₂related: [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/b/bc/McMillan_Landau_theory_PRB_75.pdf Landau theory of CDW by McMillan, PRB,12,1187,1975] Related to Pinning of CDW: [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Fukuyama and Lee,Part-I PRB,17,535,1978] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Lee and Fukuyama,Part-II PRB,17,542,1978] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Littlewood and Rice,PRB,48,44,1982] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Tucker,PRB,40,5447,1989] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Ravy and Pouget,Journal De Physique,C2-109,1993] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Aichmann,Physica B,217,1,1996] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Dai et.al,PRL,66,3183,1991] dc9c6dcca5aba23966cea7ab99f3a3cb838035d2 266 264 2009-04-22T00:45:34Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/b/bc/McMillan_Landau_theory_PRB_75.pdf Landau theory of CDW by McMillan, PRB,12,1187,1975] c2ab1bf8129754060934d9d82402649f1c040a0d 264 263 2009-04-22T00:44:33Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf McMillan, PRB,12,1187,1975] 3a28bc11c846358f893edbb7d6dc6487c334332c 263 261 2009-04-22T00:41:45Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/8/89/Williams_JdePhy_76.pdf Williams et.al, Journal De Physique,C4-139,1976] f39ac294b43553d6f4cb3178e0f5fcbc41b20297 261 260 2009-04-22T00:41:00Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. (b),229,1111,2002] [http://x-ray.ucsd.edu/mediawiki/images/7/7b/Phason_Minor_PRB_89.pdf Minor et.al, PRB,39,1360,1989] [http://x-ray.ucsd.edu/mediawiki/images/8/85/Yamamoto_PRB_83.pdf Yamamoto, PRB,27,7823,1983] [http://x-ray.ucsd.edu/mediawiki/images/1/1a/Sipos_NatMat_08.pdf Sipos et.al , Nature Materials,7,960,2008] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Wu et.al, PRL,61,2604,1988] [http://x-ray.ucsd.edu/mediawiki/images/3/3e/Wu_PRL_88.pdf Williams et.al, Journal De Physique,C4-139,1976] 703660bf8f916d3d84d0fdca80d9c96a206ad6e5 260 258 2009-04-22T00:37:24Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] [http://x-ray.ucsd.edu/mediawiki/images/9/9d/LiangX_Lieber_CDW_TaS2_STM_Sc_1989.pdf Liang et.al, Science,243,1703,1989] [http://x-ray.ucsd.edu/mediawiki/images/9/9e/Manzke_epl_8_195_89.pdf Menzke et.al, EPL,8(2),195,1989] [http://x-ray.ucsd.edu/mediawiki/images/d/da/Isa_Phys.stat.solid_02.pdf Isa et.al, Phys. stat. sol. 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Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/8/8b/PRL_burk_91.pdf Burk et.al, PRL,66,3040,1991] 56514bc66d673860af2f82942410b8487f8af8bd 235 234 2009-04-22T00:14:57Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, PRL,66,3040,1991] 95cf54e450983aa8978bff1b67dbab1df1b9f513 234 232 2009-04-22T00:13:03Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/2/22/Burk_Science_92.pdf Burk et.al, Science,257,362,1992] 5cd59a801987771cd09e4f77390b18eabff7d3e6 232 231 2009-04-22T00:12:17Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Burk et.al, Science,257,362,1992] 98f3a1b4a646f232a96db2d2674246401ab6766f 231 230 2009-04-22T00:10:34Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/e/e6/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] 8c8485a7ec3cf604f4777391b9737fb9f86dbcdd 230 228 2009-04-22T00:09:54Z Mohanty 4 TaS₂related [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Chapman_PRB_85.pdf Chapman et.al, PRB,32,2233,1985] 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http://ab-initio.mit.edu/wiki/index.php/%28Real_Gift_Cards%29_Roblox_Gift_Card_Generator_2023_No_Human_Verification http://ab-initio.mit.edu/wiki/index.php/%28New-method%21%29_Free_Roblox_Gift_Card_Generator_2023_%28No_Human_Verification%29 http://www.ita.ucsd.edu/wiki/index.php?title=(New_Update)_Roblox_Gift_Card_Generator_2023_Free_No_Verification_No_Survey http://www.ita.ucsd.edu/wiki/index.php?title=FREE_Roblox_Gift_Card_Generator_PRO_APK_(2023) http://www.ita.ucsd.edu/wiki/index.php?title=FREE_METHOD*_Roblox_Gift_Card_Codes_Generator_(2023)_No_Human_Verification_No_Survey http://ab-initio.mit.edu/wiki/index.php/%28New_Codes%29_Free_Google_Play_Gift_Card_Generator_Online_2023 http://ab-initio.mit.edu/wiki/index.php/%28Free%29_Google_Play_Card_Gift_Codes_Generator_Very_Simple_2023 39394ffe8ca532f7b31f2ca20c1bf0fb4e7e6f93 0 336 1271 1248 2011-08-19T01:04:25Z Sebastian 30 /* Most Recent Version: */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. ===Things to be modified:=== Add image quantization, converting to photon counts Fix BG subtraction *scaling of images due to energy change *masks don't get saved in scale selection Fix Min Width Annulus calculation Add Polarization intensity loss Make window sizes adjustable Add capability to switch between frames in FITS files ===Most Recent Version:=== May 08, 2011 [[File:XPCS beta2.8.zip|beta 2.8]] *Added use of Dynamic Mask for analysis. Masks are created based on the individual image in Mask tool *Added feature to expand or contract the region of interest (ROI) boundary by a pixel in Mask tool *Added two-variable 2nd-order polynomial fit in ROI in Mask tool *Added two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using center of mass intensity in ROI in Mask tool *Added find center using two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using minimum width annulus in ROI in Mask tool *Added export image directly in Mask tool *Added use of masks in background subtraction tool *Modified background subtraction tool layout *Added viewing options (zoom, pan, rotate) in setup definition tool *Modified angle definitions in setup definition tool to conform to reflection geometry standards and use sample axis definitions ===Older Versions:=== November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image mapping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data cursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Background subtraction via automatically scaled images or defined values *Define independent data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] [http://www.mathworks.com/support/solutions/en/data/1-18I2C/ Increasing the heap space for the Java VM in MATLAB] [http://www.mathworks.com/products/parallel-computing/ Parallel Computing in Matlab] 735f86325239b826d95c4405e963f45de8d453bb 1248 1209 2011-07-27T09:30:00Z Sebastian 30 /* Coding Tips and Tricks */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. ===Things to be modified:=== Add image quantization, converting to photon counts Fix BG subtraction *scaling of images due to energy change *masks don't get saved in scale selection Fix Min Width Annulus calculation Add Polarization intensity loss Make window sizes adjustable Add capability to switch between frames in FITS files ===Most Recent Version:=== May 08, 2010 [[File:XPCS beta2.8.zip|beta 2.8]] *Added use of Dynamic Mask for analysis. Masks are created based on the individual image in Mask tool *Added feature to expand or contract the region of interest (ROI) boundary by a pixel in Mask tool *Added two-variable 2nd-order polynomial fit in ROI in Mask tool *Added two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using center of mass intensity in ROI in Mask tool *Added find center using two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using minimum width annulus in ROI in Mask tool *Added export image directly in Mask tool *Added use of masks in background subtraction tool *Modified background subtraction tool layout *Added viewing options (zoom, pan, rotate) in setup definition tool *Modified angle definitions in setup definition tool to conform to reflection geometry standards and use sample axis definitions ===Older Versions:=== November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image mapping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data cursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Background subtraction via automatically scaled images or defined values *Define independent data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] [http://www.mathworks.com/support/solutions/en/data/1-18I2C/ Increasing the heap space for the Java VM in MATLAB] [http://www.mathworks.com/products/parallel-computing/ Parallel Computing in Matlab] f653cf167cd24c2221161660595cb232db14922e 1209 1195 2011-07-11T20:50:09Z Sebastian 30 /* Coding Tips and Tricks */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. ===Things to be modified:=== Add image quantization, converting to photon counts Fix BG subtraction *scaling of images due to energy change *masks don't get saved in scale selection Fix Min Width Annulus calculation Add Polarization intensity loss Make window sizes adjustable Add capability to switch between frames in FITS files ===Most Recent Version:=== May 08, 2010 [[File:XPCS beta2.8.zip|beta 2.8]] *Added use of Dynamic Mask for analysis. Masks are created based on the individual image in Mask tool *Added feature to expand or contract the region of interest (ROI) boundary by a pixel in Mask tool *Added two-variable 2nd-order polynomial fit in ROI in Mask tool *Added two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using center of mass intensity in ROI in Mask tool *Added find center using two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using minimum width annulus in ROI in Mask tool *Added export image directly in Mask tool *Added use of masks in background subtraction tool *Modified background subtraction tool layout *Added viewing options (zoom, pan, rotate) in setup definition tool *Modified angle definitions in setup definition tool to conform to reflection geometry standards and use sample axis definitions ===Older Versions:=== November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image mapping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data cursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Background subtraction via automatically scaled images or defined values *Define independent data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] [http://www.mathworks.com/products/parallel-computing/ Parallel Computing in Matlab] 5b8da7073a15515522f47872c66be899a2ae7d3a 1195 1187 2011-06-09T21:40:09Z Sebastian 30 /* Analysis Code */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. ===Things to be modified:=== Add image quantization, converting to photon counts Fix BG subtraction *scaling of images due to energy change *masks don't get saved in scale selection Fix Min Width Annulus calculation Add Polarization intensity loss Make window sizes adjustable Add capability to switch between frames in FITS files ===Most Recent Version:=== May 08, 2010 [[File:XPCS beta2.8.zip|beta 2.8]] *Added use of Dynamic Mask for analysis. Masks are created based on the individual image in Mask tool *Added feature to expand or contract the region of interest (ROI) boundary by a pixel in Mask tool *Added two-variable 2nd-order polynomial fit in ROI in Mask tool *Added two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using center of mass intensity in ROI in Mask tool *Added find center using two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using minimum width annulus in ROI in Mask tool *Added export image directly in Mask tool *Added use of masks in background subtraction tool *Modified background subtraction tool layout *Added viewing options (zoom, pan, rotate) in setup definition tool *Modified angle definitions in setup definition tool to conform to reflection geometry standards and use sample axis definitions ===Older Versions:=== November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image mapping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data cursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Background subtraction via automatically scaled images or defined values *Define independent data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] a27b516ad82caf217aeda650dbec8a94d467533c 1187 1143 2011-05-09T06:02:33Z Sebastian 30 /* Analysis Code */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. May 08, 2010 [[File:XPCS beta2.8.zip|beta 2.8]] *Added use of Dynamic Mask for analysis. Masks are created based on the individual image in Mask tool *Added feature to expand or contract the region of interest (ROI) boundary by a pixel in Mask tool *Added two-variable 2nd-order polynomial fit in ROI in Mask tool *Added two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using center of mass intensity in ROI in Mask tool *Added find center using two-variable elliptical Gaussian fit in ROI in Mask tool *Added find center using minimum width annulus in ROI in Mask tool *Added export image directly in Mask tool *Added use of masks in background subtraction tool *Modified background subtraction tool layout *Added viewing options (zoom, pan, rotate) in setup definition tool *Modified angle definitions in setup definition tool to conform to reflection geometry standards and use sample axis definitions November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image mapping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data cursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Background subtraction via automatically scaled images or defined values *Define independent data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] 31dafd3224ac796b4a9e7bfca2170ee958ddc60e 1143 1136 2010-11-06T14:00:08Z Sebastian 30 /* Analysis Code */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. November 06, 2010 [[File:XPCS beta2.4.zip|beta 2.4]] *Added ability to remove image during mask editing to see the mask only *Fixed error while hiding the mask *Added image maping including: linear, square root, logarithmic, and tone mapping. Replaced XPCS_LogCheck function with new XPCS_mapScale function *Added image coloring including: Gray, Spectrum, Rainbow, Heat, and Cool *Added interactive tools: arrow, zoom, pan, data coursor, reset view *Remembers which file was loaded last or if the entire file list has been loaded, so that Analysis and movies do not have to reaload the same images *Edit XPCS_maskOpenFile function to take advantage of checking last file opened and also added capability to call function with specific file without calling dialog box *Changed how images are displayed by adding an extra scaled image, which can be reused to display, instead of repeatedly calculating the image map *Modified how the mask.thedata variable read in works; can now store many images, instead if reloading a specific frame *Modified Main file list to store number of frames per file *Created a new movieGUI, to control playing several frames of several files. *Added pause time option and autoscale option in movie control *Added movie export capability *Modified XPCS_openFolder to load only .hdf and .fits files from the specified folder October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Backround subtraction via automatically scaled images or defined values *Define independed data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] f334d54f68ecc59f2a5c59012abf65d4bdd9ccbe 1136 1135 2010-10-25T08:47:34Z Sebastian 30 /* Coding Tips and Tricks */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Backround subtraction via automatically scaled images or defined values *Define independed data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/support/tech-notes/1100/1107.html Out of Memory problems in Matlab 32-bit version] 3ec6b871d62df5667210e33e4e34959787e6ca17 1135 1134 2010-10-25T08:45:25Z Sebastian 30 /* Coding Tips and Tricks */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Backround subtraction via automatically scaled images or defined values *Define independed data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/company/events/webinars/wbnr30435.html?id=30435&p1=32517&p2=32518 Working with large data in Matlab 32-bit version] 1988537190471548553a9e330d8e92ee529735fe 1134 1132 2010-10-25T08:34:38Z Sebastian 30 /* Analysis Code */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. October 25, 2010 [[File:XPCS beta2.2.zip|beta 2.2]] *Redefined how XPCS_fileReader and XPCS_convImgSize functions are called to expand their applicability *Simplified Code using the previous functions *Changed how XPCS_movie function works, allowing reading of multiple, multi-image .fits files October 21, 2010 [[File:XPCS beta2.1.zip|beta 2.1]] *Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Backround subtraction via automatically scaled images or defined values *Define independed data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/matlabcentral/fileexchange/9060 Working with large data in Matlab 32-bit version] e7833f790f38617fe87a7b57d7b1493916971e9a 1132 1129 2010-10-25T06:24:29Z Sebastian 30 /* Analysis Code */ == Analysis Code == Below are available versions of XPCS code in MatLab. Run XPCS_MainGUI.m to start the program. Please, contact [[user:Sebastian| Sebastian]] if you have suggestions or problems. [[File:XPCS beta2.1.zip]] - Basic tool to load .hdf and .fits files and analyze within a desired region. *Import/export masks *Draw masks with rectangles, circles, polygons, or freehand *Define masked based on certain threshold value *Play movie of data *Define the setup using; automatically calculates q-scale across CCD *Backround subtraction via automatically scaled images or defined values *Define independed data sets for analysis *Average over defined images *Autocorrelation and normalized difference method both compared to first or previous image == Coding Tips and Tricks == [http://www.mathworks.com/matlabcentral/fileexchange/9060 Working with large data in Matlab 32-bit version] 786671df6a3741df4762b3c55c5ee290bf69f4d2 1129 1128 2010-10-24T22:44:03Z Sebastian 30 == Analysis Code == [[user:Sebastian| Sebastian]] is currently working on XPCS code in MatLab. 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Your victory awaits! 🌌✨ 3cbb5158d7ed6053f81d91013c059c8407a1f493 0 67 474 195 2009-05-02T17:08:37Z Oleg 2 /* UCSD X-ray Group Calendar */ == UCSD X-ray Group Calendar == <iframe> url=http://www.google.com/calendar/embed?showCalendars=0&amp;height=1800&amp;wkst=2&amp;bgcolor=%23ffffff&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%23A32929&amp;src=p%23weather%40group.v.calendar.google.com&amp;color=%238D6F47&amp;ctz=America%2FLos_Angeles width=100% height=adjust name=myframe </iframe> 83abffd655dd0f7fd117eeecd17515988042198f 195 187 2009-04-15T19:10:54Z Oleg 2 group calendar == UCSD X-ray Group Calendar == <iframe> url=http://www.google.com/calendar/embed?showCalendars=0&amp;height=1000&amp;wkst=2&amp;bgcolor=%23ffffff&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%23A32929&amp;src=p%23weather%40group.v.calendar.google.com&amp;color=%238D6F47&amp;ctz=America%2FLos_Angeles width=100% height=adjust name=myframe </iframe> 0e29a52474e70479bfb1b7094360af759dee636a 187 2009-04-15T15:26:36Z Oleg 2 New page: == UCSD X-ray Group Calendar == <iframe> url=http://www.google.com/calendar/embed?showCalendars=0&amp;height=1000&amp;wkst=2&amp;bgcolor=%23ffffff&amp;src=eit2kq6abq4ska7v76uc5j0714%40gr... == UCSD X-ray Group Calendar == <iframe> url=http://www.google.com/calendar/embed?showCalendars=0&amp;height=1000&amp;wkst=2&amp;bgcolor=%23ffffff&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%23A32929&amp;src=p%23weather%40group.v.calendar.google.com&amp;color=%238D6F47&amp;ctz=America%2FLos_Angeles width=100% height=adjust name=myframe </iframe> c568de604d3b52c5892b80a4051c51f1df25a992 0 105 1997 1995 2020-05-11T17:12:32Z Oleg 2 /* Principal Investigator */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br /> Professor, and Vice-Chair Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.<br /> Mayer Hall 3681 |- |[[Image:erik.jpg|thumb|left|Erik Lamb]] |[https://www.linkedin.com/in/erik-lamb-8b52a3119/ Erik Lamb], Graduate Student 2018-present<br /> B.S. Physics, UCLA 2016<br /> |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. 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(2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics as an Analysis Engineer (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2453f4ecc6c408d80b27f905981b8c66413614ad 1995 1994 2019-01-29T16:27:18Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.<br /> Mayer Hall 3681 |- |[[Image:erik.jpg|thumb|left|Erik Lamb]] |[https://www.linkedin.com/in/erik-lamb-8b52a3119/ Erik Lamb], Graduate Student 2018-present<br /> B.S. Physics, UCLA 2016<br /> |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics as an Analysis Engineer (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c7673238dc7e64039c9e90c82ff7c1a251aaa230 1994 1982 2018-11-29T22:08:54Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.<br /> Mayer Hall 3681 |- |[[Image:erik.jpg|thumb|left|Erik Lamb]] |[https://www.linkedin.com/in/erik-lamb-8b52a3119/ Erik Lamb], Graduate Student 2018-present<br /> B.S. Physics, UCLA 2016<br /> |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 50e47e296e98684a73b7634cc01016b6a3a34bb1 1982 1980 2018-11-26T20:14:11Z Elamb 51 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |[[Image:erik.jpg|thumb|left|Erik Lamb]] |[https://www.linkedin.com/in/erik-lamb-8b52a3119/ Erik Lamb], Graduate Student 2018-present<br /> B.S. Physics, UCLA 2016<br /> |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3e98db34967c976e2c6553dae8e545d6d99d2e23 1980 1933 2018-11-26T20:11:06Z Elamb 51 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |[[Image:devin.gif|thumb|left|Erik Lamb]] |[https://www.linkedin.com/in/erik-lamb-8b52a3119/ Erik Lamb], Graduate Student 2018-present<br /> B.S. Physics, UCLA 2016<br /> |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9546f30c739874cd754f0fd53bd431d46f84fac2 1933 1932 2018-11-25T17:53:58Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[https://www.linkedin.com/in/stjepan-hrkac-511669119/ Stjepan Hrkac], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[https://www.linkedin.com/in/dr-anatoly-shabalin-63458688/ Anatoly Shabalin], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[https://www.linkedin.com/in/ivan-zaluzhnyy-05504058/ Ivan Zaluzhnyy], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[https://www.linkedin.com/in/peter-o-sprau-a1b767102/ Peter Oliver Sprau], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4366e9d7d0bf8857002979005bee7675f3825123 1932 1931 2018-11-25T17:51:49Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 525b62bf5a3a3f693d60cd62a6b7b1ebf14356f3 1931 1929 2018-11-25T17:51:41Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[https://www.linkedin.com/in/nelson-hua-9984b165/ Nelson Hua], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a792221a08817a54e94c585767d619c40c5954e0 1929 1928 2018-11-25T17:50:27Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[https://www.linkedin.com/in/olesya-kovalchuk-a62432120/ Olesya Kovalchuk], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |Chris|Christopher Parzyck, Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |Eva Isaacs, Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:anashe.png|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f22ce4f633505eba3fefddef3361cf7c62c60be8 1928 1927 2018-11-25T17:46:23Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:no_image_female.gif|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} bc12611343ff2634e578e24f193ec225360ea94a 1927 1926 2018-11-25T17:45:51Z Dcela 47 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:no_image_female.gif|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- | |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 97d5f54dd1047e1f3674d6cc83ccf1840c6d363a 1926 1924 2018-11-25T17:45:36Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Researcher, 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Researcher, 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], Undergraduate Researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], Undergraduate Researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal], Undergraduate Researcher. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck], Undergraduate Researcher, '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/veronica-burnett-03296085/ Veronica Burnett], Undergraduate Researcher Portfolio Accounting Product Specialist at Black Mountain Systems. (2018) |- |[[Image:no_image_female.gif|thumb|left]] |LLuvia Rodriguez, Undergraduate Researcher |- |[[Image:no_image_female.gif|thumb|left]] |[https://www.linkedin.com/in/anashebandari/ Anashe Bandari], Undergraduate Researcher. A physics graduate student at the College of William and Mary. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://web.physics.ucsb.edu/~martinisgroup/index.shtml Charles Neill], Undergraduate Researcher '''Research Topic:''' Light Scattering<br /> After graduating became a physics Graduate Student at UC Santa Barbara until 2017. Now a Quantum Electronics Engineer at Google. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[https://www.unimelb.edu.au/ David Kirszenblat], Undergraduate Researcher '''Research Topic:''' Light Scattering.<br />, After graduating became a student in the School of Mathematics and Statistics at the University of Melbourne. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[https://www.linkedin.com/in/magnus-heinz-0a0378127/ Magnus Heinz], Undergraduate Researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. Now a software engineer at SyroCon Consulting GmbH in Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |Sarah Garcia, Undergraduate Researcher, 2008-2009 Teaching Physics at High Tech High, a San Diego-based charter school system. (2018) |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[https://www.linkedin.com/in/andrew-mcleod-b1839674/ Andrew McLeod], Undergraduate Researcher, 2008-2009 After graduating became a physics graduate student at Stanford University. (2018) |- |[[Image:no_image_male.gif|thumb|left]] |[Kevin Duggento]], Undergraduate Researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} bc12611343ff2634e578e24f193ec225360ea94a 1924 1923 2018-11-25T17:11:12Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Student 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:gurleen.png|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal] After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] After graduating became a graduate student. |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> After graduating became a [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, After graduating became a Physics Graduate Student at the University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8ee4cca1520040073cb6f451aa5d4d85def27e60 1923 1922 2018-11-25T17:09:14Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[https://www.linkedin.com/in/joshrruby/ Josh Ruby], Undergraduate Student 2015-2017<br /> CT Engineerging Graduate Student Intern at Apple. (2018) |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> Working in the Aeronatics division at General Atomics. (2018) |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[http://regangroup.physics.ucla.edu/content/regan-research-group Gurleen Bal] After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[http://www.astro.ucla.edu/research-area/high-energy-astrophysics Brandon Stevenson], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. After graduating became a physics graduate student at UCLA. (2018) |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[https://www.linkedin.com/in/samstanwyck/ Sam Stanwyck] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> After graduating became a physics PhD student at Stanford. Currently a Quantum Engineering Manager at Rignetti Computing. (2018) |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] After graduating became a graduate student. |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> After graduating became a [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, After graduating became a Physics Graduate Student at the University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> After graduating completed a Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8b81b81550745ed20a7a03ebda15c6c239177cbf 1922 1921 2018-11-25T16:54:34Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/ James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[http://physics.unm.edu/pandaweb/people/person.php?personID=1434 Leandra Boucheron], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/ Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/ Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/ Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ee68e0fddd7b9bad819ceb90f50712d1a1bff830 1921 1920 2018-11-25T16:51:12Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/| Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/ | Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim| Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/| Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/| Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7036a7744905be3428d9d55f9d7d541bb813396a 1920 1919 2018-11-25T16:49:24Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. (2018) |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she currently teaches. (2018) |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/| Andrew Ulvestad], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. Now working as a Senior Cell Research Engineer at Tesla. (2018) |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Applications Engineer at SUSS Microtec. (2018) |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[https://www.linkedin.com/in/moses-marsh-4a6aa1100/| Moses Marsh], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. (2018) |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[https://www.aps.anl.gov/Magnetic-Materials/Contact-Us/Jong-Woo-Kim| Jong Woo Kim], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Postdoctoral appointee at Argonne National Laboratory. (2018) |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[https://www.linkedin.com/in/yeling-dai-7287a245/| Yeling Dai], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. Logistics analyst in Quickprime LLC (2018) |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[https://www.linkedin.com/in/ash-tripathi-4384b573/| Ash Tripathi], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3dbbb0a31e90ac5d31d001232ccc5c36c7ee5360 1919 1918 2018-11-25T16:44:34Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert]], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she is now. |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/| Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. As of 2018 he is working as a Senior Cell Research Engineer at Tesla. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> As of 2018, an Applications Engineer at SUSS Microtec. |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> As of 2018 he is an instructor and Senior Data Scientist at Galvanize Inc. |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> As of 2018 he is a postdoctoral appointee at Argonne National Laboratory. |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[https://www.linkedin.com/in/yeling-dai-7287a245/| Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. As of 2018 a logistics analyst in Quickprime LLC |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 74b43e6f938db18defbc0ba38031006ee52ba715 1918 1917 2018-11-25T16:39:52Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert]], Graduate Student 2013-2018<br /> After graduating obtained a job at General Atomics working on the tokamac, where he is now. |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> After graduating obtained her first choice of lecturer positions at the University of New Mexico, where she is now. |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/| Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> After graduating took a postdoctoral position at Argonne National Lab. He is now working as a Senior Cell Research Engineer at Tesla. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> Currently an Applications Engineer at SUSS Microtec. |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> Instructor and Senior Data Scientist at Galvanize Inc. |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2fbb762ff299b2169abbe5a376699741a2de42fe 1917 1916 2018-11-25T16:17:31Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[https://www.linkedin.com/in/andrew-ulvestad-ph-d-42a58910a/| Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 688ab764ad72b48c339bd38ba4695c4719ad08d9 1916 1915 2018-11-25T16:16:44Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[https://www.linkedin.com/in/james-wingert-a3269a168/| James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f406088264b6f68fbdbe7329f2ddfcc2460c13a6 1915 1909 2018-11-25T16:16:26Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[https://www.linkedin.com/in/james-wingert-a3269a168/|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 5cb47f80fbac21d3a404fba30f67d377593acbac 1909 1908 2018-11-25T03:02:36Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |Edwin Fohtung, Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 5b241d22bcfe5d1a8c91c9f191f68e6367966551 1908 1907 2018-11-25T03:02:10Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[https://efohtung-research.com|Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4bc24a50cfba010169124b497b08858358950b29 1907 1906 2018-11-25T03:01:24Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[efohtung-research.com|Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b09cd8f0890e8507d004a76db5447c412a89d54e 1906 1905 2018-11-25T03:00:34Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |Annamarie Paganelli, Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |Sarah Lim, Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} fd74320f192c05f54ec8d119b0bf9bfbf5284474 1905 1904 2018-11-25T03:00:07Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |Nelson Hua, Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8d2c3a19691ccdf12ffebc7b3a27ef2d6ddd3471 1904 1903 2018-11-25T02:57:56Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |Ivan Zaluzhnyy, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |Peter Oliver Sprau, Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2c8ef8fd872ef9993acd48508bc88eeefe65232a 1903 1902 2018-11-25T02:57:17Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |Stjepan Hrkac, Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |Anatoly Shabalin, Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[[Peter|Peter Oliver Sprau]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 1f180ce6f7c2460697920d2c4b6d8ac24c6a9986 1902 1862 2018-11-25T02:56:12Z Dcela 47 /* Principal Investigator */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Google Voice (preferred): 858-952-1248 * Office Phone: 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[[Peter|Peter Oliver Sprau]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c67edbb3a056d494b3d6b7e4b95ae0fbbd737df3 1862 1861 2018-11-06T18:11:51Z Peters 49 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |- |[[Image:peters.jpg|thumb|left|Peter Oliver Sprau]] |[[Peter|Peter Oliver Sprau]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, Cornell University, 2017<br /> '''Research Topic:''' I'm interested in the study of strongly correlated quantum materials that have the potential to shape the future of our energy and information technologies. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} d8a4f14f75b8149d6db0d61bc12b2457f396e619 1861 1860 2018-11-06T18:08:27Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a146a6ecd1f271f185fbfbf99c8f68587fc87baf 1860 1859 2018-11-06T18:06:22Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[https://www.linkedin.com/in/devin-cela-9117772a/ Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b54c154c337dff433e0a9501d22ed442ea646f22 1859 1858 2018-11-06T18:05:09Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[https://www.linkedin.com/in/devin-cela-9117772a/|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7833e1b3304d9d47a6e06c488a9b97345da1d521 1858 1857 2018-11-02T09:02:51Z Ivanz 48 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' x-ray diffraction studies of soft condensed matter |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 85e7eae8f3266f29e8faba6c2bb3039dd6d937b4 1857 1854 2018-11-02T08:45:24Z Ivanz 48 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |- |[[Image:ivanz.jpg|thumb|left|Ivan Zaluzhnyy]] |[[Ivan|Ivan Zaluzhnyy]], Postdoctoral Scholar 2018-present<br /> Ph.D. Physics, National research nuclear university "MEPhI" (Moscow), 2017<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a9de02c5ad2bea6cb3f412ebd80a9479418c064a 1854 1853 2018-11-02T01:13:13Z Nelson 42 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:annamarie.jpg|thumb|left|Annamarie Paganelli]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} dfe1ac7911270e872acaf88d76d90beec3e508e6 1853 1852 2018-11-02T01:12:12Z Nelson 42 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Annamarie|Annamarie Paganelli]], Undergraduate Student 2017-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9c151b311354802afb34fe1a9d19d7dad1b0e583 1852 1851 2018-11-02T01:11:08Z Nelson 42 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-2017<br /> |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-2017<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} dba739766733b3bc3c1cbe82fd94aad675bacc2e 1851 1850 2018-03-14T17:51:01Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> Ph.D. Physics, University of Hamburg, 2016<br /> M.S. Physics, Moscow State University, 2010 <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a1280aa97c658416b900e817a99bd0e7c6f86270 1850 1849 2018-03-14T11:46:24Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2016-present<br /> <br /> <br /> '''Research Topic:''' I believe that the unique capabilities of state-of-the-art X-ray sources, such as new generation of synchrotrons and free-electron lasers, are the key to the revolution in the current understanding of physics of nanoscale systems. In this big picture, my research focuses on probing the structure and dynamics of functional materials, such as resistive-switching based nanodevices for neuromorphic computing, advanced battery materials in operando conditions, and self-assembled biophotonic structures for optical computing applications. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3341b9974a9b4465fad3df80447b4d5f57ece954 1849 1848 2018-03-14T11:44:50Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 <br />Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7f7eff418fdb415f2351ff6926adf71c66279a7e 1848 1847 2018-03-14T11:44:06Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br /> Phd Materials Science and Engineering, Stanford, 2014<br /> MS, Stanford<br /> BS, Materials Science and Engineering, IIT Bombay Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} dd9e496d0dbe11a4f12a2801ad5d6ac11ad4acfb 1847 1846 2018-03-13T20:55:34Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD 2014<br /> B.S. Physics, MIT 2013<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} e21b2b9e7c40de8f68851a984ac6f311fbf96028 1846 1845 2018-03-13T20:54:05Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9e718f90b55ed5ce37bcffbeecc4eb3f379daf00 1845 1844 2018-03-13T20:50:45Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> [http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 Andrej's site] |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[[https://research.engineering.ucdavis.edu/ultrafastdynamics/ Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering<br /> [https://research.engineering.ucdavis.edu/ultrafastdynamics/ Roopali's website] |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 21c3972f460c7ba40046f82dce1eb83ad70b92cc 1844 1843 2018-03-13T20:45:13Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja https://research.engineering.ucdavis.edu/ultrafastdynamics/]], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7aa05daaf444b9ffcb9ccd8b8e04fb549c901c38 1843 1841 2018-03-13T20:42:56Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering <br /> http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering <br /> https://research.engineering.ucdavis.edu/ultrafastdynamics/ |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4a7ae5cf8aaf6ff839b81577dcbf2c673551391b 1841 1840 2018-03-13T20:42:01Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University in the Department of Materials Science and Engineering http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:roopali.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> Currently an Assistant Professor at UC Davis in the Department of Materials Science and Engineering https://research.engineering.ucdavis.edu/ultrafastdynamics/ |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6b40d284809714174c14e9b9fda7a4aa71179d75 1840 1839 2018-03-12T18:59:44Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017 Ph.D. Physics, University of Hamburg, 2013 '''Research Topic:''' My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources. Currently an Assistant Professor at Cornell University http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-2016<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a849495dbabe5f21b3870cc8b5dccac7a4f4170c 1839 1837 2018-03-12T18:23:10Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. Currently an Assistant Professor at Cornell University http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b00e75e0624fc46790a3e02ed0dcbf00b31d684b 1837 1835 2018-03-12T18:21:59Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej2.jpg|thumb|left|Professor Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-2017<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. Currently an Assistant Professor at Cornell University http://www.mse.cornell.edu/people/profile.cfm?netid=as3689 |- |[[Image:no_image_female.gif|thumb|left|Professor Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 06c8dc8a2d324a801979c2ba9b433b6d49d18853 1835 1834 2018-03-12T17:46:41Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:sarah.jpg|thumb|left|Sarah Lim]] |[[Sarah|Sarah Lim]], Sarah Lim, Undergraduate Student 2017-present <br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b69a99c742ea6e1ca5a19f9e2b38db77561bd868 1834 1832 2018-03-12T17:36:49Z Dcela 47 /* Current Group Members: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b0bc7a57718043cc9c2015f311e354895cd44ab2 1832 1831 2018-03-05T21:26:01Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:anatoly.jpg|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> <br /> <br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 36c3d90583edfcfaf65355538cad521c97e668e6 1831 1829 2018-03-05T21:21:28Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Stjepan.jpg|thumb|left|Stjepan Hrkac]] |[[Stjepan|Stjepan Hrkac]], Postdoctoral Scholar 2017-present<br /> Dr. rer-nat, CAU Kiel<br /> Diploma Physics, CAU Kiel<br /> '''Research Topic:''' |- |[[Image:|thumb|left|Anatoly Shabalin]] |[[Anatoly|Anatoly Shabalin]], Postdoctoral Scholar 2017-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6a7301571e9855d829a1e554279c555b62190138 1829 1828 2018-03-05T21:10:59Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 0188ffb842365aad578316ceab42a8c92f546086 1828 1827 2018-03-05T21:10:36Z Dcela 47 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 668c4029312fec31166c9f2103f77598995afdac 1827 1826 2018-03-05T21:09:37Z Dcela 47 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |} == Visiting Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 71ddaff6a37a0c8477cc55bdba6f609843534359 1826 1825 2018-03-05T20:53:06Z Dcela 47 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 368f810ac91b454d0681b55f458c9a059f98a02f 1825 1824 2018-03-05T20:52:44Z Dcela 47 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2543a794df5ac8fe73251d244d1ff801976e214f 1824 1823 2018-03-05T20:52:18Z Dcela 47 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-2018<br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} afe61c3f07b282ec57c9330f6a75fac8f3360997 1823 1822 2018-03-05T20:51:00Z Dcela 47 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 63e0844239fcfebf38f89ad15f4fad83497d2d9a 1822 1821 2016-10-25T20:51:27Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals, particularly those present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 65c7b70f7691c09a0aace849b67fe3acd2df1889 1821 1818 2016-10-25T20:42:13Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> B.S. Engineering Physics, University of Pittsburgh, 2013 <br /> B.A. Physics and Astronomy, University of Pittsburgh, 2013 <br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3600d9eff98d3db5879fd377ca1eea906a6859a3 1818 1817 2016-10-25T18:11:18Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. Physics, UCSD <br /> B.S. Physics, MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8b723a977b475362dbd6494b6e9d59d39d9d519a 1817 1816 2016-10-25T18:10:55Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. UCSD <br /> B.S. MIT <br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6a9c1b046a8147a3eb6e292219211a0bd6a994d6 1816 1815 2016-10-25T18:10:42Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> M.S. UCSD B.S. MIT '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f6710ebc2945a358d38fc775876bb4fd2be13d40 1815 1814 2016-10-25T18:09:09Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> '''Research Topic:''' |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> '''Research Topic:''' |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> '''Research Topic:''' Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7655a501ff7ffbad2b84a783f608e57da9f3129b 1814 1813 2016-10-25T18:08:49Z Nelson 42 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic:''' My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 21aab2a3f8330ee4034229926a29d96a150c112b 1813 1812 2016-10-25T18:08:04Z Nelson 42 /* Postdoctoral Fellows */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature. |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a5328a1000995bcce03923771bc9590045dde0be 1812 1811 2016-10-25T18:07:45Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging. |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 1610100d82d986bc2f4d6a74bacbef341ad30b39 1811 1810 2016-10-25T18:07:35Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> 'Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.' |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3afb43e01fc0f70208e34a29a8d810c09b43a18e 1810 1809 2016-10-25T18:07:25Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> ''Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.'' |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4089ec54ce426f8e6326b61554d8a60b7ec03016 1809 1808 2016-10-25T18:07:06Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> '''Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.''' |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 35b1ca7b94f79572a5b4cd960ad17aa714d3bf72 1808 1807 2016-10-25T18:06:41Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 063707c3e92c964825a6a7046a75aba702a6f996 1807 1806 2016-10-25T18:06:29Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- '''Research Topic: Studying defects and dislocations in energy storage and conversion materials using coherent diffractive imaging.''' |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f8a55e280b921d0dda6ae10d67f78ced35bb4838 1806 1805 2016-10-25T18:03:26Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.jpg|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2015-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 063707c3e92c964825a6a7046a75aba702a6f996 1805 1803 2016-10-25T17:59:36Z Andrej 45 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f6446301fd2282d6fadcde65590951ed667aa980 1803 1802 2016-10-25T17:56:07Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br />x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br />to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} cef93f7441e6e8633d7dbd09733e307cc4478cbd 1802 1801 2016-10-25T17:55:34Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />Ph.D. Physics, University of Hamburg, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics<br /> in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and <br /> x-ray free-electron lasers. I am interested in a wide range of systems – spanning from<br /> fundamental correlated electron materials and applied “real” materials in operando devices <br /> to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} aa8de2f9f2c5245f9355f4192a9c5f43664ed213 1801 1799 2016-10-25T17:55:17Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics in nanoscale materials<br /> by using new generation x-ray sources, primarily synchrotrons and x-ray free-electron lasers. I am interested in a wide range of systems – spanning from fundamental correlated electron materials and applied “real” materials in operando devices to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:nelson.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} d80c2e4d5371a79a800924a1b9f185220c56c222 1799 1798 2016-10-25T17:53:01Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics in nanoscale materials<br /> by using new generation x-ray sources, primarily synchrotrons and x-ray free-electron lasers. I am interested in a wide range of systems – spanning from fundamental correlated electron materials and applied “real” materials in operando devices to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7a1d02d84b7bfbed596701421aff9ec0e05781e2 1798 1797 2016-10-25T17:51:42Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and x-ray free-electron lasers. I am interested in a wide range of systems – spanning from fundamental correlated electron materials and applied “real” materials in operando devices to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:devin.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3853c6e989bbfcf598bb1e8ee021cd154a1b0383 1797 1796 2016-10-25T17:50:59Z Nelson 42 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and x-ray free-electron lasers. I am interested in a wide range of systems – spanning from fundamental correlated electron materials and applied “real” materials in operando devices to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Devin|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} efc6a32f42684c58627209873b8c44574f847079 1796 1794 2016-10-25T17:49:38Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic: My research focuses on understanding of the structure and its dynamics in nanoscale materials by using new generation x-ray sources, primarily synchrotrons and x-ray free-electron lasers. I am interested in a wide range of systems – spanning from fundamental correlated electron materials and applied “real” materials in operando devices to photonic crystals in particular present in nature.''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8d891d216abf39c644148c5278d6d6170b7267cf 1794 1788 2016-10-25T17:45:41Z Andrej 45 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:Andrej.jpg|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} edbe0b5c1f8c6c494d16722dbda49913285e2ee4 1788 1786 2016-06-03T18:12:04Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, May, 2016 Shpyrko group, May 2016. (l-to-r): Oleg Shpyrko, James Wingert, Nelson Hua, Olesya Kovalchuk, Josh Ruby, Roopali Kookerja, Andrej Singer, VIdya Premkumar, Devin Cela, Robin Knox, Amie Diza ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8e73a1a3db497192bc6c4d8c5b0a5f6ffbcc2531 1786 1784 2016-05-31T16:39:16Z Josh 40 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:joshwiki.jpg|thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f86a99bd71c8e073ba51bcc3b3552d7ec781e621 1784 1783 2016-05-31T16:08:33Z Josh 40 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |[[Image:thumb|left|Josh Ruby]] |[[Josh|Josh Ruby]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c4accfb58930e000b224a91f5c8a197da5b191e4 1783 1781 2016-03-02T20:46:31Z Eylul 43 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 83a3593f215daf152a96a26652b2a9876a684ef7 1781 1780 2016-02-24T03:41:35Z Eylul 43 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} {| class="wikitable"\n|-\n |- |[[Image:Eylul_icon2.jpg|thumb|left|Eylul Bilgin]] |[[Eylul|Eylul Bilgin]], Undergraduate Research Assistant 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c414b520f8444a3bba18098f69002eca6a3bfb27 1780 1779 2016-02-09T10:46:07Z Oleg 2 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Devin Cela]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 83a3593f215daf152a96a26652b2a9876a684ef7 1779 1778 2016-02-09T08:23:18Z Oleg 2 /* Graduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Devin Cela]], Graduate Student 2015-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} cd83637fc85cdac55770b572ab444ad5c440ec10 1778 1776 2016-02-09T02:20:55Z Olesya 41 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon2.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3aa4680d38f18c968abd1f76470f0a1dad166f8f 1776 1772 2016-02-09T02:19:03Z Olesya 41 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:Olesya_icon.jpg|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7b3ecc5f03ddd8687b7dae7ef60da3b4db04f5f6 1772 1762 2016-02-05T04:46:24Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 69f6caab3bc7c98b1b681214648b0705f2374de4 1762 1761 2016-02-05T03:17:12Z Leandra 27 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego, 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ae5e7fe14fd8c8a56be8586e3f1c422f12627660 1761 1754 2016-02-05T03:16:59Z Leandra 27 /* Alumni */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech, 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6a4be4879ee868f98e789946379f1fbd0e2cf1ba 1754 1753 2016-02-05T00:53:52Z Olesya 41 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} cebfe2b4302c7a1e670f11175ed4981e11800452 1753 1751 2016-02-05T00:53:07Z Olesya 41 /* Undergraduate Students */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Olesya Kovalchuk]] |[[Olesya|Olesya Kovalchuk]], Undergraduate Student 2015-present<br /> |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 19b7f5cbc39f2f1154542dc782c0c602a9daf14d 1751 1750 2016-02-04T23:26:37Z Devin 39 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students == {| class="wikitable"\n|-\n |- |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7e6da748b078956275fce6d494c8928f86493192 1750 1749 2016-02-04T23:26:29Z Devin 39 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} d4f328cce7e0da93b4b1d3642c120ea831ff6857 1749 1748 2016-02-04T23:26:21Z Devin 39 /* Staff: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7d46fb84cddc09a3d0bcb517af7ae08893c6f873 1748 1747 2016-02-04T23:26:10Z Devin 39 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ab7532f8acad6d569491cbc5afde09800c928178 1747 1746 2016-02-04T23:26:00Z Devin 39 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2a27c6ab5821c5333c01fb12caeaa4662cd62948 1746 1729 2016-02-04T23:25:51Z Devin 39 /* Principal Investigator: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c829c7dfcf303f9bb95fe0ed031dba600ecbd3da 1729 1728 2015-10-12T20:08:58Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-2015<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9fd52c97c10163fd32365ba8ee34235116522756 1728 1720 2015-10-12T20:07:47Z Leandra 27 /* Current Group Members: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 040220bdd95f25e8b5f57f6f09363dfd81de7ca6 1720 1719 2015-08-31T21:49:06Z Leandra 27 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student, 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]], Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]], Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} d8b3fd4b4f76604a2773fd4feeb5a8e8894d5401 1719 1718 2015-08-31T21:47:45Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]],Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} bae72bef13ecd6093942e5dfe6c141edef91c8ea 1718 1717 2015-08-31T21:47:15Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]],Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009<br /> Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 38975133f4198ab89d27eff6543a59c74f869620 1717 1716 2015-08-31T21:45:34Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]],Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UC San Diego, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009. Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6da43ec1ba3f62a9a8315dfd86fb460a6448cc90 1716 1715 2015-08-31T21:45:16Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]],Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student, 2012-2015<br />B.S. Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012 <br />Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student, 2008-2015<br />B.S. Physics, U Texas Austin, 2008<br />M.S. Physics, UC San Diego, 2010<br /> Ph.D. Physics, UC San Diego, 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student, 2008-2015<br />B.S. Physics and B.S. Math, UC Santa Cruz, 2007<br />M.S. Physics, UC San Diego, 2009. Ph.D. Physics, UC San Diego, 2015<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student, 2009-2013<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student, 2009-2015<br />M. Sc. Seoul National University<br /> Ph.D., UC San Diego, 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego, 2008<br />Ph.D. Physics, UC San Diego, 2013<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign, 2005<br />M.S. Physics, UC San Diego, 2007<br />Ph.D. Physics, UC San Diego, 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student, March-June 2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009 |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2cd58a5b79dbbabe07f46d55980707f9307eccdd 1715 1714 2015-08-31T21:35:59Z Leandra 27 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |[[Image:no_image_male.gif|thumb|left|Nelson Hua]] |[[Nelson|Nelson Hua]],Graduate Student 2014-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012. PhD, UCSD 2015<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009. PhD, UCSD 2015<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University. PhD, UCSD 2015<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6b0401ebf204d1e37eb528f42b8587482112861a 1714 1713 2015-08-31T21:30:28Z Leandra 27 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' | } == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} bdc5dad8df1672bbdcd8dba62f74f9c1e0feadac 1713 1712 2015-08-31T21:30:04Z Leandra 27 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |- |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' | } == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 8e5de2a01775c1fcc205cd9a4acb13941b674b58 1712 1710 2015-08-31T21:28:11Z Leandra 27 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |[[Image:no_image_female.gif|thumb|left|Dr. Roopali Kukreja]] |[[Dr. Roopali Kukreja]], Postdoctoral Fellow, 2014-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2014<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 0100aede1e3e11274825f53032473dd26147648d 1710 1709 2015-06-24T02:23:28Z Oleg 2 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 413c78aa244cfc2f217520748ff28188afd25c9a 1709 1708 2015-06-24T02:21:28Z Oleg 2 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |-|[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010. PhD, UCSD 2015<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-2015<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} fdbd8c933e59b75dfb9e9116dd976681b53d1079 1708 1696 2015-06-24T02:20:33Z Oleg 2 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 15e72c1325aaa8fac697054f6024f94a09a749ae 1696 1694 2015-02-03T16:17:01Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:GroupPhoto Jan26 2015.jpg|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, Jan 2015. (l-to-r): Oleg Shpyrko, Andrej Singer, Andrew Ulvestad, James Wingert, Leandra Boucheron, Jacob Stanley, Sebastian Dietze, Roopali Kookreja, Jong Woo Kim ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} daaf4fdde2c462f16064fd9e6091c69ca3940989 1694 1668 2015-02-03T16:14:02Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_J2015.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): ]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} da3c12a41dee08c3e6480bee86d1196259385ffd 1668 1657 2014-01-16T01:56:36Z Leandra 27 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[User:Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6a0471fe418c8e7d008b2855308e6aa61f288408 1657 1656 2014-01-16T01:38:52Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]], undergraduate researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} f49d5e86e8abbce4c556c33868acfa4d762e83bf 1656 1653 2014-01-16T01:38:01Z Leandra 27 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 48c267e07e89a0767e1b3bf3430c1f4c022ed8b9 1653 1649 2013-11-07T19:48:00Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Cameroon, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 22fd084f05b99dc6fa9efe9116a8f74bdb14f279 1649 1648 2013-11-07T19:40:38Z Oleg 2 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student, 2008-2013<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student, 2007-2012<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]], undergrad researcher, 2012-2013 |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} cad2370f9f5a6aae50f9a84332d388e890d3d3a3 1648 1639 2013-11-07T19:38:52Z Oleg 2 /* Principal Investigator: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV])<br /> * Office: Mayer Hall 3210 ('''[[Where is it]]'''?), 9500 Gilman Dr., MC-0319, UC San Diego, La Jolla, CA 92093-0319 * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 2ed4f3fbed274431fcbcb31c52ebaa5d05987b13 1639 1638 2013-11-05T21:10:40Z Yeling121 6 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Dr. Andrej Singer]] |[[Dr. Andrej Singer]], Postdoctoral Fellow, 2013-present<br />B.S. <br />M.S. <br />Ph.D. Physics, 2013<br /> '''Research Topic:''' |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 71c600bfdb49119f4d9488ac8e3d3de705838815 1638 1637 2013-11-05T21:02:50Z Yeling121 6 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Marion Fuhrmann]] |[[Marion|Marion Fuhrmann]],visting student March-June,2013 |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} bfba3c7089c0332641a43ad530db8896b0af9f19 1637 1636 2013-11-05T20:58:19Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2011.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4dfbe63163c40dffff49309ba031ec30d95d8351 1636 1634 2013-11-05T20:57:16Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:Andrew_icon.png|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9a9e933c1b7fcc6da77e275352bcafc922d409f5 1634 1633 2013-11-05T20:51:49Z Yeling121 6 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />Ph.D. Physics, UC San Diego 2013.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} aa6ca913eebe3c46756cbfdb6162ddb08fe22d95 1633 1632 2013-11-05T20:50:24Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 3a8c1311c39088cbc168df6e3dbb404db2c5d6f3 1632 1630 2013-11-05T20:49:47Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.png|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 71a6f7612eacdff8a66f0acefea7677e62c3ea16 1630 1629 2013-11-05T20:42:09Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2008.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 39dfa58eead4b36478f4322b444dd783a87f77a7 1629 1628 2013-11-05T20:41:57Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ca656444ed31807a639cc7806232cac54e2f7ed6 1628 1627 2013-11-05T20:40:26Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2013-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4002346be8bca98695f9c3dd7fde0d80111b849c 1627 1626 2013-11-05T20:37:52Z Yeling121 6 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]],Graduate Student 2008-present<br /> |- |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b828a2fa557996826abb4759c3e12039b9f54f12 1626 1625 2013-11-05T20:36:48Z Yeling121 6 /* Staff: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ad5b784242bf86e1783c5358adbb2fa0203975e2 1625 1624 2013-11-05T20:29:08Z Yeling121 6 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |[[Edwin Fohtung]], , Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 7a3994dc59340205e56be3e0364c9e74250ae600 1624 1583 2013-11-05T20:27:39Z Yeling121 6 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow 2011-2013<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 13224eecff598a068cbe683cf8902ec2723f23f6 1583 1581 2013-04-30T21:20:34Z Leandra 27 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Chris_Parzyck.jpg|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4cbf840c0a4c2aef3dd2b9451e6e85d5567f3521 1581 1580 2013-04-30T21:12:03Z Leandra 27 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 5f47ccbd9cf9007dbdd9e96fa85a8bfe8b8b69ee 1580 1546 2013-04-30T21:11:27Z Leandra 27 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyck]] |[[Chris|Christopher Parzyck]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} b02d035fbf8578440bc412896f2853d76ea32fad 1546 1545 2013-03-27T18:58:17Z Yeling121 6 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are graduate student Moses Marsh and undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} '*' group member in law <br /> Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} c9e32870b20658be623376b938b1752ca7e9df63 1545 1544 2013-03-27T01:58:37Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} Countries Represented: U.S.A, Ukraine, South Korea, France, Germany, People's Republic of China, Taiwan. == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 220cc8b32e741c4062e4553d8d55227e1371dcf6 1544 1543 2013-03-27T01:44:05Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- | [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} eeb2854707a49cfb11c2a215c2c6a97bbcac2f26 1543 1541 2013-03-27T01:39:21Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- [[Image:SHPYRKO_GROUP_M2013.JPG|thumb|1200px|right|Group Photo, March 25, 2013 Shpyrko group, March 2013. Sitting (l-to-r): James Wingert, Sebastian Dietze, Jacob Stanley, Edwin Fohtung, Yeling Dai & Vince Chen *, Standing: Oleg Shpyrko, Jong Woo Kim, Leandra Boucheron, Marion Fuhrman, Andrew Ulvestad. Not present are undergraduate students, Eva Isaacs and Chris Parzyck]] |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |- |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ce0a63b8d797c440a22cb3f3e5caa8d62926492a 1541 1537 2013-03-27T00:46:28Z Oleg 2 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:SHPYRKO_GROUP_March2013.gif|thumb|800px|right|Group Photo, March 25, 2013 (l-to-r): Oleg Shpyrko, Jim Wingert, Jong Woo Kim, Sebastian Dietze, Leandra Boucheron, Edwin Fohtung, Marion Fuhrman, Andrew Ulvestad, Jacob Stanley, Yeling Dai]] |- |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 6d124b65308e8f4c4f581ba9ab07120d336326c2 1537 1525 2013-03-21T16:28:38Z Oleg 2 /* Principal Investigator: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} a5bb20894e9e7baf4ff7b53f7f046104433ca24a 1525 1523 2013-01-31T23:28:46Z JimWingert 36 /* Staff: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:jim_with_dino.jpg|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 22ca9fe159c2db69c75cb45288f5b3671c52da44 1523 1512 2013-01-31T23:18:34Z JimWingert 36 /* Current Group Members: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Staff: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 4af7ae372629b4151117bb61c0e39b035cb07a7e 1512 1511 2012-11-30T00:19:11Z Leandra 27 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br />'''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 297d53f2eeb5fb228791bdfc4f475da7b28202ed 1511 1510 2012-11-30T00:16:45Z Leandra 27 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br />M.S. Physics, UC San Diego 2012<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 166c6023db5f2bbf614e1dd66169417f2718abba 1510 1476 2012-11-30T00:15:17Z Leandra 27 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 5ebdbde5892ec49f51e90d69da674ec7d8077ba3 1476 1475 2012-09-20T21:35:15Z Oleg 2 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk]] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert]] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} ff32ee03439082b105050856abaf26b9306ed258 1475 1474 2012-09-20T21:28:37Z Oleg 2 /* Alumni: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br />Ph.D., UCSD 2012<br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] Current Whereabouts: [http://www.teachforamerica.org/ Volunteer, Teach for America] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging, Two-color imaging. Current Whereabouts: [http://home.physics.ucla.edu/ Physics Graduate Student at UCLA] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] Currently a Physics Graduate Student, Cal Poly State University, San Luis Obispo |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] Currently a Physics Graduate Student, California State University, Long Beach |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br />, Currently a Physics Graduate Student, University of Melbourne |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student in Medical Imaging at UCSD Cancer Center. |} 9c40691347317b8ebd7a0cb5108457bd6bba5959 1474 1473 2012-09-20T21:22:01Z Oleg 2 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:no_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk] |- |[[Image:no_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} fe184dc9858dc86c0e8f6cf89a5d8e126a7427af 1473 1472 2012-09-20T21:21:49Z Oleg 2 /* Undergraduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left|Eva Isaacs]] |[[Eva|Eva Isaacs]] |- |[[Image:bno_image_male.gif|thumb|left|Christopher Parzyk]] |[[Chris|Christopher Parzyk] |- |[[Image:bno_image_male.gif|thumb|left|James Wingert]] |[[James|James Wingert] |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} a7135045e99d7bb972a9cba9551e456eb886c8bc 1472 1471 2012-09-20T21:18:47Z Oleg 2 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 4132635bac1461c29d8eae4d4883063557f75e89 1471 1457 2012-09-20T21:17:39Z Oleg 2 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Surface Scattering, X-ray Source construction <br /> |- |[[Image:No_image_male.gif|thumb|left|Andrew Ulvestad]] |[[Andrew|Andrew Ulvestad]], Graduate Student 2012-present<br />B.S Physics, UCSD, 2010<br />M.S. Physics, U Chicago, 2012<br />'''Research Topic:''' Coherent Imaging and XPCS<br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 4766723c50288f2acc991dec77554fdaddad383e 1457 1341 2012-06-07T05:28:37Z EdwinF 31 /* Postdoctoral Fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques. Novel coherent x-ray diffraction imaging techniques to study the fundamental physics of novel materials with potential technological importance. Strain Mediated Magnetoelectric Coupling as a route to Novel Hybrid Multiferroic Devices Switching of Ferroelectrics Domains and Magnetoelectric coupling in heterostructures |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 3affc7ed48f99d9c58b11843c916351722792898 1341 1335 2011-09-23T22:43:33Z Sebastian 30 /* Graduate Students: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br />M.S. Physics, UC San Diego 2009.<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br />M.S. Physics, UC San Diego 2010.<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 52a745d5eae5cc11440e9df20f8b4b4af32fea78 1335 1332 2011-09-09T22:04:58Z Moses 24 /* Postdoctoral fellows: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral Fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 43062ecdb88f9523441d798491a982edb9233410 1332 1330 2011-09-09T20:53:45Z Moses 24 =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 94d763434d812719a91f792e34a6b1b2c8e7a4c9 1330 1329 2011-09-09T20:52:39Z Moses 24 /* Principal Investigator: */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == Principal Investigator: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} b9bbe6625e77ff0fc039915b31f09144b311439d 1329 1328 2011-09-09T20:52:28Z Moses 24 /* Group Photo */ =Current Group Members:= <onlyinclude> ==Group Photo== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == [[Principal Investigator]]: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 3d9cd83b160430ae8d04496ddfbba1f8acaa34d3 1328 1324 2011-09-09T20:52:15Z Moses 24 /* Current Group Members: */ =Current Group Members:= <onlyinclude> ==[[Group Photo]]== {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} == [[Principal Investigator]]: == {| class="wikitable"\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} </onlyinclude> == Postdoctoral fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 746eb6e2d9cc3029c909568ad8cdbfd11e399a2e 1324 1321 2011-09-09T20:47:00Z Moses 24 /* Postdoctoral fellow(s): */ =Current Group Members:= ==[[Group Photo]]== {{:Group Photo}} == [[Principal Investigator]]: == {{:Principal Investigator}} == Postdoctoral fellows: == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 8c270e7a5d334c23ccfceb3339e13004b7d145ad 1321 1296 2011-09-09T20:44:15Z Moses 24 =Current Group Members:= ==[[Group Photo]]== {{:Group Photo}} == [[Principal Investigator]]: == {{:Principal Investigator}} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} =Alumni:= {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 9cca4b973617aaf0ece884471b3da0b5163f80af 1296 1293 2011-09-09T19:45:48Z Moses 24 Replaced content with '=[[Current Group Members]]= {{:Current Group Members}} =[[Alumni]]= {{:Alumni}}' =[[Current Group Members]]= {{:Current Group Members}} =[[Alumni]]= {{:Alumni}} 034a44bba72fd659858017b387607db65dae69a2 1293 1292 2011-09-09T19:29:07Z Moses 24 =[[Current Group Members]]= {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} {{:Current Group Members}} =[[Alumni]]= {{:Alumni}} 0e7eff617075aca605f1c732670b4e15a4a0b3f0 1292 1291 2011-09-09T19:28:30Z Moses 24 =Current Group Members= {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} {{:Current Group Members}} =Alumni= {{:Alumni}} 144c2705f06f795bab0a4f4267599cf2b6a9726d 1291 1258 2011-09-09T19:23:25Z Moses 24 Replaced content with '=Current Group Members= {{:Current Group Members}} =Alumni= {{:Alumni}}' =Current Group Members= {{:Current Group Members}} =Alumni= {{:Alumni}} d49c9d378eb71e52c65e9e47f732f339ea4c469b 1258 1257 2011-08-18T17:49:10Z Oleg 2 /* Group Members */ = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim and Edwin Fohtung]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 8058a9c008a8f46186ebe01209eb8c19aa20a340 1257 1249 2011-08-18T17:48:49Z Oleg 2 /* Group Members */ = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung)]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 5e18e912607751451e6bf6b230e7c7dc54914233 1249 1242 2011-07-30T20:58:16Z Brandon 35 /* Undergraduate Students: */ = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left]] |[[Brandon|Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 76f907481b03035102170adc23d26e668ca5d14e 1242 1228 2011-07-20T21:36:30Z Brandon 35 /* Undergraduate Students: */ = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left]] |[[Brandon|Brandon Stevenson]], Undergraduate Student<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} b6d7a8413a561210d2123041f0aaa9b0bb0fab34 1228 1202 2011-07-16T00:45:46Z Leandra 27 = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} 7714991619d3aa67ef1a66ec348b12d85c150af9 1202 1201 2011-07-08T18:30:20Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_male.gif|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa Agafonova]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) c0db03c54faa45586a1f6dd1bdd347633757fd8e 1201 1200 2011-07-08T18:29:59Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_male.gif|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa Agafonova]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) f86799305d5f81257ee2506f15a6e515adafd960 1200 1199 2011-07-08T18:29:05Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_male.gif|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa Agafonova]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 574760de12cf7123fa4e8d6ab0e47539bfcd5ddc 1199 1189 2011-07-08T18:28:23Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Alisa Agafonova]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Jacob Stanley]], Graduate Student 2011-present<br /><br /> '''Research Topic:''' Optics, Soft Matter<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) d6448556ff226f1564aea9cfd4ee6e6ecb0f276c 1189 1072 2011-05-24T03:30:43Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 2895d50592e30d9a984189d49c97bff15dfb6ac1 1072 1068 2010-08-12T22:39:03Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |<br />'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} <br /> == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) d6631ea8a947c4286a8cfd4b345df65afdb297df 1068 1067 2010-08-12T03:54:08Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) c500ba5fc0530f3755cb7213e0309e849d9d5240 1067 1063 2010-08-11T00:11:09Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|500px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 453d9ff86adedca1cc0eb79d524d304c24402b65 1063 1055 2010-08-06T05:02:52Z WikiSysop 1 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|500px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 34a766816f579e05137ac675536ed763bb86af34 1055 1049 2010-08-06T00:26:26Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 3feaa66edbd9ece15709f92113088484f1fa0a46 1049 1048 2010-08-06T00:09:49Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) ece9f0975b7d00b435b49621b63b96727622f37f 1048 1047 2010-08-06T00:09:34Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|600px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 71c76935533fb472d219ae9ff82ad4e1196d1a2f 1047 1046 2010-08-06T00:09:22Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|600px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) d791394a9d9644f432c4c8727e999b1e7d208abb 1046 1033 2010-08-06T00:08:46Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) ece9f0975b7d00b435b49621b63b96727622f37f 1033 1030 2010-08-02T19:17:24Z WikiSysop 1 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 0a9d0925aa39934e5fbce4aaa7746a2e6ee1e8dd 1030 1029 2010-08-02T19:12:58Z WikiSysop 1 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 8d83d8a68b42fc4ec32ea22bc8715e5e27f41757 1029 1028 2010-08-02T19:12:21Z WikiSysop 1 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 41f74fdbec9c6eff05cd7fdfba1001b8268cbca4 1028 1027 2010-08-02T19:12:02Z WikiSysop 1 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 863ca93615b7729e09932fff999293b91b7b4d04 1027 903 2010-08-02T19:11:17Z WikiSysop 1 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 9557a99187bef9bbf21317142efd5c9c5d0450e7 903 795 2010-05-04T21:29:43Z Moses 24 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 6f1761e1c00b144860433e07b23b3c6953b9b215 795 794 2010-03-09T01:24:24Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Descombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 71636e6d008bfbb9f2bfd77a5183808ebeb748c1 794 793 2010-03-08T16:09:09Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left|Michael Folkerts]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left|Sam Stanwyck]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left|Veronica Burnett]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 825c3e11dab58705404814fd01800e616fdf68fe 793 787 2010-03-08T16:07:36Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 607201e79fc3cf68393d29f21a720774fe394c98 787 786 2010-03-03T17:39:41Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Veronica Burnett]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 0e2acb3cabe609f43adc2d330c72d82197a07d59 786 748 2010-03-03T17:37:01Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A (We are currently hiring!) == Graduate Students: == == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 57e6359bb2d8f1227d6159a3195b7605e7a6c3b9 748 731 2010-01-21T17:48:51Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A (We are currently hiring!) == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 3916db7b55934f4d42014cce04f6b8dec6196618 731 730 2009-12-11T17:40:10Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) ddf0afd1e9d17699828239f24353f1d1481dc44e 730 718 2009-12-11T17:38:36Z Oleg 2 /* Principal Investigator: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 5d1d17bef66c04570f7fa1036868a3cb292771bf 718 654 2009-09-17T22:09:23Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 5d33b9be172502339c90cd73f5647014050c8d16 654 651 2009-06-28T06:37:44Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 66264676cb493eef2fca01d84e63d966db61c29a 651 646 2009-06-28T06:34:04Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod2.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 69a6205842bb4cf9410647cab21ac7096951b909 646 637 2009-06-28T06:30:21Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) dfa483f0092e73c77547bfebb3af80eb9b24e447 637 634 2009-06-11T16:41:09Z Oleg 2 /* Principal Investigator: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 36aa8e76b93180863242b959c115fbdfdd800a50 634 620 2009-06-11T16:34:48Z Oleg 2 /* Principal Investigator: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[http://x-ray.ucsd.edu/mediawiki/index.php/User:Oleg Oleg Shpyrko]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 759e90abf7d6e71d0249b23c2bbc3ec2f1199364 620 618 2009-06-09T14:50:42Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|'''Group Photo, June 8, 2009'''. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. '''Not pictured:''' Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 81732ae7d3f252c4fb34d408ed1a8a4bbba91e7c 618 616 2009-06-09T05:06:54Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|600px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 4d745742eb8756956aceade455b86d9b9c9b6d41 616 614 2009-06-09T04:42:24Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|500px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 2d15b3ff6baf55b94cd0232c4a86081329525d6a 614 611 2009-06-09T04:35:25Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> [[Image:Shpyrko_group_June_08_2009.jpg|thumb|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) b617f12352c327728b5e0d197fc386d325f5646c 611 600 2009-06-09T04:29:00Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> [[Image:Shpyrko_group_June2009.3.jpg|thumb|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. MIA: Jyoti Mohanty, Sam Stanwyck, Sarah Garcia]] == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 9374a5e759c3d5b83514321c3452c8ce31d4f7ef 600 597 2009-06-07T15:31:20Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 74f9d9b8e293006ce6a14f7bd627219a77be360b 597 595 2009-06-07T00:01:57Z Oleg 2 /* Graduate Students: */ == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 15282c3de5ba766e33b2395ab73b8e4d3883af71 595 593 2009-06-07T00:00:14Z Oleg 2 /* Graduate Students: */ == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 74cce9542c3a1ecba2d7e2ee886cfe599d26aa52 593 592 2009-06-06T17:16:55Z Oleg 2 == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:no_image_male.gif|thumb|left]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) c5a4460582480774a5d243e659ae279633547958 592 591 2009-06-06T17:15:55Z Oleg 2 /* Undergraduate Students: */ == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:no_image_male.gif|thumb|left]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 80c0d6ff8eec4e10155e1b3c41dc8ccd8c9cd5b8 591 382 2009-06-06T17:15:18Z Oleg 2 /* Undergraduate Students: */ == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:no_image_male.gif|thumb|left]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 3152754bf2fb7489f12ec27233574331b2d0c600 382 381 2009-04-26T16:35:30Z Oleg 2 == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:no_image_male.gif|thumb|left]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_male.gif|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne National Lab) * Kyle Alvine (Pacific Northwest National Lab) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * Sujoy Roy (ALS, Lawrence Berkeley National Lab) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (APS, Argonne) * Paul Zschack (APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 53facc129cee17ac0b25e68ee50bc4811dc8209e 381 322 2009-04-26T16:22:34Z Oleg 2 /* Principal Investigator: */ == Principal Investigator: == {| class="wikitable"\n|-\n! |- | [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] | [[Oleg Shpyrko]]<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> |} == Postdoctoral fellow(s): == [[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /> '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> == Graduate Students: == [[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> <br /><br /><br /><br /><br /><br /><br /> <br /> == Undergraduate Students: == [[Image:no_image_male.gif|thumb|left]] * [[Michael Folkerts]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Sarah Garcia]] <br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] * [[Andrew McLeod]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[LLuvia Rodriguez]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Sam Stanwyck]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Anache Bandari]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Kevin Duggento]] <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Group Alumni: == [[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /><br /> <br /> <br /> <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 51f1809909851b187b5dfbdbea14579d0abd8e01 322 321 2009-04-22T17:49:34Z Oleg 2 /* Group Alumni: */ == Principal Investigator: == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] [[Oleg Shpyrko]],<br /> Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> <br /><br /><br /><br /> == Postdoctoral fellow(s): == [[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /> '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> == Graduate Students: == [[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> <br /><br /><br /><br /><br /><br /><br /> <br /> == Undergraduate Students: == [[Image:no_image_male.gif|thumb|left]] * [[Michael Folkerts]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Sarah Garcia]] <br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] * [[Andrew McLeod]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[LLuvia Rodriguez]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Sam Stanwyck]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Anache Bandari]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Kevin Duggento]] <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Group Alumni: == [[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /><br /> <br /> <br /> <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 350e8935376e98c222b749acb9b49ad9eded2225 321 312 2009-04-22T17:47:56Z Oleg 2 == Principal Investigator: == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] [[Oleg Shpyrko]],<br /> Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> <br /><br /><br /><br /> == Postdoctoral fellow(s): == [[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /> '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> == Graduate Students: == [[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> <br /><br /><br /><br /><br /><br /><br /> <br /> == Undergraduate Students: == [[Image:no_image_male.gif|thumb|left]] * [[Michael Folkerts]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Sarah Garcia]] <br /><br /><br /><br /><br /><br /><br /><br /> [[Image:no_image_male.gif|thumb|left]] * [[Andrew McLeod]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[LLuvia Rodriguez]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Sam Stanwyck]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_female.gif|thumb|left]] * [[Anache Bandari]] <br /><br /><br /><br /><br /><br /><br /> <br /> [[Image:no_image_male.gif|thumb|left]] * [[Kevin Duggento]] <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Group Alumni: == [[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /><br /> <br /> <br /> <br /><br /><br /><br /><br /><br /><br /> <br /> <br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) a4007c4483cb071280cc4101b21b5d5004091f25 312 311 2009-04-22T16:53:56Z Oleg 2 == Principal Investigator: == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] [[Oleg Shpyrko]],<br /> Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> <br /><br /><br /><br /> == Postdoctoral fellow(s): == [[Image:Jyoti_icon.jpg|thumb|left|Jyoti Mohanty]] Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /> '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> == Graduate Students: == [[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> <br /><br /><br /><br /><br /><br /><br /><br /><br /><br /> == Undergraduate Students: == * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] == Group Alumni: == [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) efacac2a44a13b0991f0fd178338dda1c9f967ab 311 298 2009-04-22T16:48:36Z Oleg 2 /* Principal Investigator: */ == Principal Investigator: == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] [[Oleg Shpyrko]], Assistant Professor<br /> Ph.D. Physics, Harvard University, 2004 == Postdoctoral fellow(s): == Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005 '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. == Graduate Students: == [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> == Undergraduate Students: == * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] == Group Alumni: == [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) e001b886c81a73fdb754d32afd40f3185eb5c242 298 297 2009-04-22T16:27:27Z Oleg 2 == Principal Investigator: == [[Oleg Shpyrko]], Assistant Professor<br /> Ph.D. Physics, Harvard University, 2004 == Postdoctoral fellow(s): == Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005 '''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. == Graduate Students: == [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 '''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. [[Yeling Dai]], Graduate Student<br /> B.S. Physics, The University of Science and Technology of China, 2006<br /> '''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. [[Sebastian Dietze]], Graduate Student<br /> B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> == Undergraduate Students: == * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] == Group Alumni: == [[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U. Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" Phys. Rev. Lett. 98, 117206 (2007) O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" Phys. Rev. Lett. 97, 175503 (2006) E. D. Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) b561c27e0aa832607c2ee0525366f96350c2ddc5 297 296 2009-04-22T16:21:07Z Oleg 2 == Principal Investigator: == [[Oleg Shpyrko]], Assistant Professor Ph.D. Physics, Harvard University, 2004 == Postdoctoral fellow(s): == Dr. [[Jyoti Mohanty]], Postdoctoral Fellow Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005 Research Topic: Jyoti is working on x-ray magnetic dichroism studies of magnetic thin films as well as magnetic and orbital domains in manganese oxides == Graduate Students: == [[Ash Tripathi]], Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 Research Topic:Ash is working on development and application of novel coherent x-ray scattering techniques to studies of magnetic and electronic phases characterised by complex disorder and slow dynamics. [[Yeling Dai]], Graduate Student B.S. Physics, The University of Science and Technology of China, 2006 Research Topic: Yeling is working on studying structure and dynamics of nanoconfined materials, such as liquids, soft matter and nanoparticles. == Undergraduate Students: == * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] == Group Alumni: == Loic Jacot Descombes, visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> Current Whereabouts: ETH Zurich, Switzerland.<br /> == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. Oregon) * John Mitchell (Argonne) * Alec Sandy, Michael Sprung, Suresh Narayanan (Sector 8, APS, Argonne) * Jeff Elam and Michael Pellin (MSD&ES, Argonne) * Xiao Min Lin (CNM, Argonne) * Martin Holt and Jorg Maser (X-ray Nanoprobe, CNM, Argonne) * Binhua Lin, Mati Meron (CARS, U. Chicago) * Ivan Kuzmenko, Thomas Gog (Sector 9, APS, Argonne) * Zahir Islam, Jonathan Lang (Sector 4, APS, Argonne) * Ross Harder, Ian McNulty, Zhonghou Cai (Imaging and Microscopy Group, APS, Argonne) * Paul Zschack (Sector 33/34, APS, Argonne) * Alexei Grigoriev, Paul Evans (U. Wisconsin, Madison) Our group currently has several openings at postdoctoral, graduate and undergraduate student level. Contact [[Oleg Shpyrko]] for more information Examples of Research Directions: * Nanoscale Dynamics using X-ray Photon Correlation Spectroscopy * Coherent X-ray Microscopy * Nanoconfined liquids * Atomic Structure of Liquid-Solid and Liquid-Vapor Interfaces * Mesoscale phase separation in electronic and magnetic materials * Search for Novel Superconducting Materials * Metallic Glasses and Liquids List of relevant references: O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) R. 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Isaacs, "Microscopy: X-ray nanovision", Nature 442, 35 (2006) 07f9271923374c4d1253ee9f86a2087215767dba 296 2009-04-22T16:15:48Z Oleg 2 New page: == Principal Investigator: == [[Oleg Shpyrko]], Assistant Professor Ph.D. Physics, Harvard University, 2004 == Postdoctoral fellow(s): == Dr. Jyoti Mohanty, Postdoctoral Fellow Ph.D... == Principal Investigator: == [[Oleg Shpyrko]], Assistant Professor Ph.D. Physics, Harvard University, 2004 == Postdoctoral fellow(s): == Dr. Jyoti Mohanty, Postdoctoral Fellow Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005 Research Topic: Jyoti is working on x-ray magnetic dichroism studies of magnetic thin films as well as magnetic and orbital domains in manganese oxides == Graduate Students: == Ash Tripathi, Graduate Student B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005 M.S. Physics, UC San Diego 2007 Research Topic:Ash is working on development and application of novel coherent x-ray scattering techniques to studies of magnetic and electronic phases characterised by complex disorder and slow dynamics. Yeling Dai, Graduate Student B.S. Physics, The University of Science and Technology of China, 2006 Research Topic: Yeling is working on studying structure and dynamics of nanoconfined materials, such as liquids, soft matter and nanoparticles. == Undergraduate Students: == * Sarah Garcia Physics undergraduate student, UC San Diego Research Topic: Sarah is working on multi-speckle dynamic light scattering setup for studies of dynamics in soft matter and granular materials. Michael Folkerts Physics undergraduate student, UC San Diego Research Topic: Michael is working on lens-less imaging techniques, such as ptychographical iterative engine. == Group Alumni: == Loic Jacot Descombes, visiting student, Nov 2008-April 2009 Masters Student at ETH Zurich, Switzerland B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007 Current Whereabouts: ETH Zurich, Switzerland. == Collaborators: == * Dmitri Basov (UCSD) * Eric Fullerton (UCSD) * Ivan Schuller (UCSD) * Sunny Sinha (UCSD) * Brian Maple (UCSD) * Peter Pershan (Harvard) * Eric Isaacs (U Chicago, Argonne) * Kyle Alvine (NIST) * Moshe Deutsch (Bar Ilan U., Israel) * Tom Rosenbaum (U Chicago) * Patrick Huber (Saarland U., Germany) * Ben Ocko (Brookhaven) * Masa Fukuto (Brookhaven) * Oleg Gang (Brookhaven) * Elaine DiMasi (Brookhaven) * Gabe Aeppli (UC London) * Thomas Russell (UMass) * Steve Kevan (U. 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Can we tune quantum mechanical vs. classical mechanisms of relaxation, and take advantage of anomalously slow glassy dynamics, memory and aging effects for data storage and computing devices? 2. Properties of materials in nanoscale confinement. How small is too small? When confined at nanometer lengthscales, the materials can suddenly change their behavior. Fluids stop flowing and do not freeze down to very low temperatures, or sometimes show opposite behavior of ordering in crystalline-like fashion at temperatures well above melting point. Critical phenomena and liquid-glass transition are also expected to be affected by reduced dimensionality and the confinement geometry. In addition to in-house experimental facilities at UCSD, these projects will benefit from newly available coherent x-ray sources such as Advanced Photon Source at Argonne National Lab near Chicago, Advanced Light Source at Lawrence Berkeley National Lab and Linac Coherent Light Source at Stanford. 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Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. 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B. 73, 104441 (2006)] 6ee96329405650d89aa5fec725fa155192d8ff04 418 417 2009-04-30T17:23:05Z Mohanty 4 == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg |thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, [Paul-Drude Institute http://www.pdi-berlin.de/], Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. 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Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] bdd41332d407164c6084ec4f14e77f431a919066 417 416 2009-04-30T17:21:21Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg |thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 54d73f1a30f676584d437ff03a161202a36cf0c4 416 415 2009-04-30T17:21:03Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg |10x20||thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 657ef17a656d0db91cfb144e9b93fea4d513a1ee 415 414 2009-04-30T17:20:37Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg |10x200||thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 8f01056600067f7484a9683de3e81eefea7e9641 414 413 2009-04-30T17:20:02Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|100x200||thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] f4427d728c8d4e51560e70a4b82be685b58398e0 413 412 2009-04-30T17:19:34Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|200x300||thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 9695124d39730374f152c1e023e7ca4fd2d74afe 412 411 2009-04-30T17:17:45Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 1f13005b5a8905ba74528203be6e7e13e7fb5bc8 411 410 2009-04-30T17:17:24Z Mohanty 4 == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- * Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> * Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] f4687dc58c068d48c3b56bb3f3d756f35c5fb8be 410 409 2009-04-30T17:14:36Z Mohanty 4 == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: http://jyotirmohanty.googlepages.com/ * Blog: http://nano-magnetism.blogspot.com/ ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 96acd6bdef39ea771be88e4ab05710780b6494f4 409 400 2009-04-30T17:14:05Z Mohanty 4 == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] * Blog: [http://nano-magnetism.blogspot.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 79fc42a480d7796446facd26ddd2e36978c292a6 400 399 2009-04-28T23:44:09Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs(001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs(001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 3ae2187cf4d9a3a33bfd94c9ef5cdfd80649bdcc 399 398 2009-04-28T23:43:08Z Mohanty 4 == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs (001)" [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy" [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] f3c85d42057b263361417ac407052ece3e208429 398 397 2009-04-28T23:40:45Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs (001) [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 3059a3a405452b662672a9b46141c4a8157465ad 397 395 2009-04-28T23:38:58Z Mohanty 4 /* Dr. Jyoti Mohanty, Contact Info: */ == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs (001) [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. Mohanty et al., "Selective etching of epitaxial MnAs films on GaAs (001): Influence of structure and strain" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes J. Appl. Phys. 98, 013907 (2005)] * R. Engel-Herbert, T. Hesjedal, J. Mohanty et al., "Magnetization reversal in MnAs films: Magnetic force microscopy, SQUID magnetometry, and micromagnetic simulations" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes Phys. Rev. B. 73, 104441 (2006)] 0c074098f6dcaa34844a963299fe6d31ca00a635 395 2009-04-28T23:36:24Z Mohanty 4 New page: == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Office): 858-822... == '''Dr. Jyoti Mohanty, Contact Info:''' == [[Image:Jyoti.jpg|thumb|left|Dr. Jyoti Mohanty]] * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Office): 858-822-6446<br /> ---- Post-Doctoral Researcher, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2005, Physics, Paul-Drude Institute,[http://www.pdi-berlin.de/] Humboldt University, Germany<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Personal Webpage: [http://jyotirmohanty.googlepages.com/] ---- '''Selected Publications:''' * T. Plake, T. Hesjedal, J. Mohanty et al., "Temperature-dependent magnetic force microscopy investigation of epitaxial MnAs films on GaAs (001)" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 82, 2308 (2003)] * J. Mohanty et al., "Variable-temperature micromagnetic study of epitaxially grown MnAs films on GaAs (001) [http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 Appl. Phys. A 77, 739 (2003)] * J. Mohanty et al., "Effect of strain on the local phase transition temperature of MnAs/GaAs" [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes Appl. Phys. Lett. 83, 2829 (2003)] * J. Mohanty et al., "Variable magnetic field and temperature magnetic force microscopy [http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 Appl. Phys. A 81, 1359 (2005)] * J. 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Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] 1dd42e115e25f0bc68db19dd718897dd0876b51b 1756 1672 2016-02-05T03:05:20Z Leandra 27 /* Graduation Requirements */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:LeandraDefense.pdf|Ph.D. Defense: X-Ray Studies of Diffusion Dynamics in Nano-Confined Geometries, October 2015]] *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] 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Why settle for less when you can have it all? 👉 Click now to get started and experience the magic like never before! #MagicManaStrike #GameCheats #GoldGemsGenerator #GameHack #NoVerificationNeeded CLICK HERE TO GET > https://www.wikimod.org/genv2024 b4f1f6848d118b354227634c8eb9a074c558836f 0 160 448 447 2009-05-01T01:54:03Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_], Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf], Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf], J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf], Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf],<br />Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] adb3a9cba800358444332f57909c901ccc574f2f 447 446 2009-05-01T01:53:47Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_], Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf], Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf], J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf], Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf],<br />Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] 4c42518e120be6c140dd1b24e5da192dee49bf75 446 445 2009-05-01T01:32:32Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_], Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf], Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf], J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf], Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf],<br />Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] adb3a9cba800358444332f57909c901ccc574f2f 445 444 2009-05-01T01:32:15Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_], Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf], Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf], J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf], Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf],<br /> Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] 60880bb0ce92228bc35d230da387fe6adbf552dd 444 443 2009-05-01T01:31:15Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_], Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf], Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf], J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf], Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] , Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] a0c1f0e6665530555290c04667c0029a2c20f55a 443 442 2009-05-01T01:30:16Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering (XRES), J. P. Hannon et.al, ''Old article on resonant magnetic scattering'' [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] 4838c6c1421d3956c4ae09ab777a9d692e86e490 442 441 2009-05-01T01:29:32Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering(XRES), J. P. Hannon et.al, Old article on resonant magnetic scattering [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] 5e7d183887814e7a32975527f61153c64d7413e1 441 440 2009-05-01T01:27:01Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] Resonant magnetic x-ray scattering studies of magnetism at surfaces and interfaces, Sunil K Sinha [http://pdfserve.informaworld.com/825564_770849120_902861060.pdf] X-ray resonant exchange scattering(XRES), Old article on resonant magnetic scattering [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] 3ceed4f83755605b68d6501d235bfcc7a468c456 440 439 2009-05-01T01:21:49Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] X-ray resonant exchange scattering(XRES), Old article on resonant magnetic scattering [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] and by Paolo Carra [http://prola.aps.org/pdf/PRB/v40/i10/p7324_1] ee168d95cc2305f683cddadae1c063146f253c2a 439 438 2009-05-01T01:18:52Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] X-ray resonant exchange scattering(XRES), Old article on resonant magnetic scattering [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] cb374c82da065e12337f5475cae2b47bc0f7404f 438 437 2009-05-01T01:18:25Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4 X-ray resonant exchange scattering(XRES), Old article on resonant magnetic scattering [http://www.springerlink.com/content/j57120752230161h/fulltext.pdf] 5723efe84ee6acff54f070d48ef0d6692dd33869 437 436 2009-05-01T01:01:13Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Steve Kevan Talk [http://www.coe.berkeley.edu/AST/srms/2007/Lec26.pdf] and youtube video [http://www.youtube.com/watch?v=PLMloL7X1CI] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] 6875013bd3c2a2827afa3c5d1a29a4ddc3f819c8 436 435 2009-05-01T00:56:53Z Mohanty 4 '''Fe/Gd Related:''' Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talk and Thesis:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] 8aa9255729189a6016d744386c74670756eb73c4 435 434 2009-05-01T00:55:34Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talks:''' J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] Soft X-ray resonant magnetic scattering study of magnetization reversal in low dimensional magnetic heterostructures, Jeroen B. Goedkoop Group [http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6THY-4P777Y3-4&_user=4429&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000059602&_version=1&_urlVersion=0&_userid=4429&md5=95dbdbbc36d39925c32a72fa318497e4] e30c6481124aec0e2659eacac0845394bf94140f 434 433 2009-05-01T00:48:37Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talks:''' J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ Coherent soft X-ray magnetic scattering, Eric E. Fullerton collaboration [http://pdfserve.informaworld.com/64493_770849120_792946191.pdf] Soft x-ray techniques to study mesoscale magnetism, Jeffrey B. Kortright [http://pdfserve.informaworld.com/697483_770849120_902861062.pdf] cab9f1393ccf828cd088f7b4b41b604185e5321e 433 432 2009-05-01T00:29:14Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talks:''' J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] '''Others:''' Si₃N₄ membrane company http://www.silson.com/ 1edb6f300590edff5793075b2d95f9644029bc94 432 431 2009-05-01T00:28:10Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] '''Talks:''' J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Si₃N₄ membrane company http://www.silson.com/ b32fc6e5fd6f2a3c080f9b364b329168f1b2632e 431 407 2009-05-01T00:27:47Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] --- '''Talks:''' J. B. Goedkoop Talk [http://www.sri2003.lbl.gov/pdf/Goedkoop_Talk8.6_SRI03.pdf] Jan Lüning Talk [http://www.sri2003.lbl.gov/pdf/Luning_Talk15.1_SRI03.pdf] Si₃N₄ membrane company http://www.silson.com/ 62f7af0e086bd93cf28419ef493c1aa37099244c 407 406 2009-04-29T18:18:05Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] Si₃N₄ membrane company http://www.silson.com/ 77b1010adbbf06e7c76b49a193e960b40eacf380 406 405 2009-04-29T18:17:42Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] Si₃N₄ membrane company http://www.silson.com/[http://www.silson.com/] ff5dfd600733b29192dd5a9e229bf5c3861e36d2 405 404 2009-04-29T18:17:16Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] Si₃N₄ membrane company [http://www.silson.com/http://www.silson.com/ ] 139162a85f84111928448306c63dbe1c2e41fe05 404 394 2009-04-29T18:16:29Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] Si₃N₄ membrane company [http://www.silson.com/] f845dedc1d11de5f8b258a4476039d0d518bdcee 394 393 2009-04-28T23:14:05Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] Stan Konings thesis [http://www.science.uva.nl/research/cmp/konings/docs/thesis_konings_LR.pdf] Stability of stripe magnetic domain in magnetic multilayers: Prediction and observation [http://prola.aps.org/abstract/PRB/v59/i1/p142_1] Stripes in thin ferromagnetic films with out-of-plane anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000075000017174433000001&idtype=cvips&gifs=yes] Effects of magnetostatic coupling on stripe domain structures in magnetic multilayers with perpendicular anisotropy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000101000011113921000001&idtype=cvips&gifs=yes] Magneto-optics of Gd and Tb in the soft x-ray resonance regions [http://prola.aps.org/abstract/PRB/v68/i13/e134453] Soft x-ray resonant magneto-optical constants at the Gd M4,5 and Fe L2,3 edges [http://prola.aps.org/abstract/PRB/v70/i22/e224417] Quantitative imaging of magnetization reversal in FeGd multilayers by magnetic transmission x-ray microscopy [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000087000009006478000001&idtype=cvips&gifs=yes] Experimental determination of the magnetic phase diagram of Gd/Fe multilayers [http://prola.aps.org/abstract/PRB/v52/i22/p16041_1] 3390cca0aa6cf89d049ff089a7d55c057f95f1ac 393 392 2009-04-28T22:48:27Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis [http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] Jorge Miguel thesis [http://www.science.uva.nl/research/cmp/docs/Goedkoop/thesis/thesis_miguel.pdf] [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] c30b4835450cbec178f18b69a9b276d1c5c8eeda 392 391 2009-04-28T22:33:39Z Mohanty 4 '''Fe/Gd Related:''' Thomas Eimüller thesis[http://www.ep4.ruhr-uni-bochum.de/imperia/md/content/nachwuchsgruppe/eimueller_dissertation_univ_wuerzburg_2002_] [http://x-ray.ucsd.edu/mediawiki/images/c/c2/Spijkerman_56_13757.pdf Spijkerman et.al, PRB,56,13757,1997] 825e699bc6458362176e42b433f6c224138c92a9 391 2009-04-28T22:23:07Z Mohanty 4 New page: '''Fe/Gd Related:''' '''Fe/Gd Related:''' 4ac4092acf53ea242e5a9f8fafa96b8115aa2f76 0 403 1991 1990 2018-11-27T04:32:47Z Dcela 47 <big>'''[http://oleg.ucsd.edu Web Page]'''</big><br> <big>'''[https://github.com/dcela/groupCode GitHub]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Publications = {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 1e7b3b4bde45127e806a1776ddba16188eef30af 1990 1989 2018-11-27T04:32:16Z Dcela 47 <big>'''[http://oleg.ucsd.edu GROUP WEB PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Publications = {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 47429f42d6c387326abaf1e94434a01108903dd2 1989 1988 2018-11-27T04:31:39Z Dcela 47 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK MAIN GROUP PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Publications = {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 400151e0b488e7de138000c427c261d1ac172634 1988 1986 2018-11-27T04:30:47Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK MAIN GROUP PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Publications = {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 075d67e7afeeca09a807ed0b87262ac8d7413533 1986 1985 2018-11-26T20:51:26Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK MAIN GROUP PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 18d635492b6f17ef230f912b8e4e14cc98419023 1985 1984 2018-11-26T20:51:15Z Dcela 47 <huge>'''[http://oleg.ucsd.edu BACK MAIN GROUP PAGE]'''</huge><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 86ff7824090b066b81019ce86862b6513314277c 1984 1983 2018-11-26T20:51:00Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK MAIN GROUP PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 18d635492b6f17ef230f912b8e4e14cc98419023 1983 1979 2018-11-26T20:50:31Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big><br> <big>'''[https://github.com/dcela/groupCode TO GROUP GITHUB]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 290138781a62f7bd0a2eefe851597153009ee96d 1979 1978 2018-11-25T21:11:27Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 465f130ac5db34e2eb7205a17e91c42e3fc42579 1978 1977 2018-11-25T21:09:29Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, Science Adv. (2016) *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 522331a311d9889d74efa17c5eede9461783ea28 1977 1976 2018-11-25T21:06:33Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *'''[https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging]'''<br/> Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G., <br/> Nature Energy (2018) *'''[http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G, <br/>Science Adv. (2016) *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] d029d4fa4f86afa076f51f5bb3c092fca90f6619 1976 1975 2018-11-25T21:02:17Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 14813ac2b8355ba744e8bd491cbdd6f95e037939 1975 1974 2018-11-25T21:01:45Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 73425d34d0b9bb1606138c493766f8be695de544 1974 1973 2018-11-25T21:01:10Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = <big>[[Publications|All Publications]]</big> *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 14813ac2b8355ba744e8bd491cbdd6f95e037939 1973 1972 2018-11-25T20:59:48Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[Publications|All Publications]] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] ec920903b90a435830e6b9c965297a4061c8315a 1972 1971 2018-11-25T20:58:02Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[Publications|{{huge | All Publications}}]] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] a4a411014f26de73a123a7d05ffeadb0b713091a 1971 1970 2018-11-25T20:57:44Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[Publications|{{big|All Publications}}]] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 7850d584da4b2de714b61615c4558b3a8b3bcaa1 1970 1969 2018-11-25T20:57:08Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = {{big|[[Publications|All Publications]]}} *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] db6a886073866e2aeb2b8cc91a3fd90aab18a0d9 1969 1968 2018-11-25T20:55:40Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = '''[[Publications|All Publications]] ''' *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 60944f9d0eaa3cd4bfb0aa9959f46719202d6b5f 1968 1967 2018-11-25T20:54:40Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = == [[Publications|''All Publications'']] == *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 77861ec043a231b3eb3824dd27fa706c0dd39fc1 1967 1944 2018-11-25T20:54:01Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[Publications|''All Publications'']] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] ce6d4b3ea3890e10bccf509d11c38256d7225047 1944 1940 2018-11-25T20:16:18Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[PublicationsTabular|''All Publications'']] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 7a2d429e87ca6a41dcd21531abba2468da8af913 1940 1914 2018-11-25T19:48:07Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = [[Publications|''All Publications'']] *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] ce6d4b3ea3890e10bccf509d11c38256d7225047 1914 1913 2018-11-25T04:53:52Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)] [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 37f835f03aa6d7c8bd97bc99d2ec8d2aa8893fce 1913 1912 2018-11-25T04:36:08Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 1dffd7fc7f5280c90d7e58747b123e78b5df0d36 1912 1911 2018-11-25T04:21:03Z Dcela 47 /* Reading & Reference */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * '''[[Group Presentations]]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 5dafdcde226cb9ddb9f9d5b7987ab88856c2a142 1911 1910 2018-11-25T04:09:45Z Dcela 47 /* Reading & Reference */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] f2c4a97e34da607b5eec95940db62b19305b5d25 1910 1901 2018-11-25T04:06:27Z Dcela 47 /* Reading & Reference */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 7b8ee203a2ae15b85b26ed3f3a5e55e4dbe4bec4 1901 1900 2018-11-25T02:54:18Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] d8dfc6ef304d9f384f979150e938338905f21d40 1900 1899 2018-11-25T02:54:07Z Dcela 47 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 37d89117f10278fe3a92d555545f7598bcfdf966 1899 1896 2018-11-25T02:53:28Z Dcela 47 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = Reading & Reference = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] acf70c7fd1586873372267e2ace7175b64249a8a 1896 1895 2018-11-25T02:52:42Z Dcela 47 /* Selected Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = Selected Publications = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 397b60282b095c99aae02467d758611fb32801c5 1895 1894 2018-11-25T02:52:09Z Dcela 47 /* [Funding] */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = Funding = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 57d68c29543cdda9aef99f87788ac7f6c450e17c 1894 1893 2018-11-25T02:52:00Z Dcela 47 /* Funding */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [Funding] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 901823c1a34acf07ff16f71f8b1c51378f3a8e10 1893 1892 2018-11-25T02:51:42Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 15a52f4b3fb3d528ea9d8355fb0b9493ef95e548 1892 1891 2018-11-25T02:51:36Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] ead4761b6e8e00e4f46a2394bb2c13c0beb67090 1891 1890 2018-11-25T02:51:28Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 15a52f4b3fb3d528ea9d8355fb0b9493ef95e548 1890 1889 2018-11-25T02:51:23Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 602e123f32bc2462d4a58f4e35bffc6112b7dc7c 1889 1888 2018-11-25T02:51:15Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] ff987ab5874289ca6f620b6a54af0097d1a0118e 1888 1887 2018-11-25T02:51:06Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <br /> <br /> <br /> <br /> <br /> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 8b3c9defc6189a9c54e18e6d82ace36aa3e513bd 1887 1886 2018-11-25T02:49:36Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] </BR> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 7f0db328c3734ae98f5734ee09b5474adc28cf74 1886 1885 2018-11-25T02:48:56Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] |- * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 79fdb97411c09fcb5d446a617748663ee0bad50d 1885 1884 2018-11-25T02:48:20Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] <BR> * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] 3d348d650c08828dc9ffd9a73742c75eb338a581 1884 1883 2018-11-25T02:47:50Z Dcela 47 /* UCSD Physics Department */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> fe95be5a55621a057df1bea22ae0d0285c715c7f 1883 1882 2018-11-25T02:47:35Z Dcela 47 /* Wiki Help */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> 0e2dd64fb5536cbf8308d71a79870fd9a2251d8d 1882 1881 2018-11-25T02:47:10Z Dcela 47 /* Teaching: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f5cd617fa070c64a351f9b1b4dfd9c6d89472c9e 1881 1880 2018-11-25T02:39:57Z Dcela 47 /* Funding: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 22f1fad396dbbc53a48819828f26aa8a3a4c3398 1880 1879 2018-11-25T02:38:22Z Dcela 47 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 51b0a2b74a525b5917aa3aad7a1769250af2ea6c 1879 1773 2018-11-25T02:37:38Z Dcela 47 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a517f28a3255d7ac740533682e67bfc5084ac98b 1773 1752 2016-02-05T04:48:26Z Oleg 2 /* Funding: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research efforts have been generously funded by DOE, NSF, DARPA, NSF CAREER, AFOSR-MURI, AFOSR, Hellman Foundation, Argonne LDRD, UCOP MRPI award, as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f4c08c44b228bc637e078a94dee817e481952d81 1752 1745 2016-02-04T23:27:34Z Devin 39 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = UCSD Physics Department = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0b9ea09ee8925295c362b83ee2fbd04f9a264614 1745 1742 2016-02-04T23:22:12Z Devin 39 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 8568241e4246f5d3049d970ddd40bdf676240940 1742 1741 2016-02-04T23:17:54Z Devin 39 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4af707de231891d9c29098944d7eb22226af461e 1741 1727 2016-02-04T23:16:36Z Devin 39 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ebfdc8ceb7a8a27bbcad34d8ed9dec21f4d24fed 1727 1707 2015-08-31T22:13:20Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 18362674a6f0e13678d7acf6bec38523c910aa85 1707 1683 2015-06-24T02:19:56Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 10/8 - Jacob *** 10/15 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 41f8f4b0f8d877d1b397d7a9559e8d6a99e8bf2b 1683 1618 2014-04-17T06:57:04Z Sebastian 30 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications|Selected Publications]] = *''' [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br/> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] *''' [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] *''' [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] *''' [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] *''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] *''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] *''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] [[Publications|''All Publications'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 10/8 - Jacob *** 10/15 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c2e118cfc9f4538a66c964793902c3166b7fc71e 1618 1617 2013-09-30T21:01:32Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 10/8 - Jacob *** 10/15 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 48e219ced481f1ebbf4373e5b40faf8d88187c89 1617 1616 2013-09-26T23:41:25Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 9/30 - Andrej *** 10/9 - Jacob * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c8cc55f526c953b6e493f4ed1b989b16274e03da 1616 1615 2013-09-26T23:41:10Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 9/30 - Andrej *** 10/2 - Jacob * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 42a5da443d8bc0dba524b68932b42bd4cfb0a434 1615 1614 2013-09-11T21:12:52Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 9/18 - Andrej *** 9/25 - Jacob * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 35cda1a774b9dfd364b1c8efe60f4c617b096fcd 1614 1613 2013-09-03T18:31:07Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 9/11 - Jong Woo *** 9/18 - TBA * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 706fef35841a8e8b9c61f708313a1db046774e34 1613 1610 2013-08-22T18:20:33Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 8/28 - Andrew *** 9/4 - Jong Woo * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 81b7c005532931f976cbd1137c28c2f6e0b35aa9 1610 1609 2013-07-10T22:08:05Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 7/17 - Jim *** 7/24 - TBA * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4609ddd4dd4ac9d2c366aa363154a220f8f356d3 1609 1608 2013-06-20T20:22:45Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 7/3 - Jim *** 7/10 - Andrew * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 398589dcf2b1289844c477423577dcf013687722 1608 1607 2013-06-06T20:26:49Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 6/13 - Edwin *** 6/20 - Jim * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7d7a3ea0d074532ef237ab4bda60366ca47ee82e 1607 1601 2013-06-03T21:26:20Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 6/6 - Edwin *** 6/13 - Jim * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 85d290102a133f243bf7081f3141f3ecdb648266 1601 1598 2013-05-29T18:37:00Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 5/30 - Leandra *** 6/6 - Edwin * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f493ead190e00bc091d68a9803c56e594f16bb2b 1598 1592 2013-05-22T18:02:58Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 5/23 - Yeling *** 5/30 - Leandra * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b8d7c92d148aaca2d1fc09f947df1268662a4452 1592 1563 2013-05-12T22:49:05Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 5/16 - Jacob *** 5/23 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] dbb204ce27e0b6c448e2a80d98375071aff6afbe 1563 1549 2013-04-10T21:44:59Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 4/11 - Yeling *** 4/18 - TBA * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d4ace6134faef271b06d44aa7ba84a6b98aeb4bd 1549 1539 2013-04-01T21:13:41Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 4/8 - Yeling *** 4/15 - TBA * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ce02890d6f4c63ddc41a7516b90a3b0ca94c9d92 1539 1536 2013-03-25T17:54:52Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 4/1 - Jacob *** 4/8 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] bb7356f350ee8383e324dc3bf4fadeed313ceca0 1536 1535 2013-03-12T00:19:32Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 3/18 - March Meeting *** 3/25 - * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fa15fdb6d7baac1e6980290320be5ce9f453d805 1535 1534 2013-03-04T23:47:04Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 3/11 - March Meeting Practice *** 3/18 - * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d92eddcf23010b0fce29aad7e99be832d9c1f8ac 1534 1533 2013-02-27T19:22:27Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 3/4 - March Meeting Practice *** 3/11 - * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7079572d93105ad3290ffe4c020134d2ec6d9585 1533 1527 2013-02-20T01:35:07Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 2/25 - None scheduled *** 3/4 - Moses * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c7d278eda08287210716c733448da163eb49ab79 1527 1526 2013-02-11T23:42:59Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule:'' *** 2/19 (NOTE date change) - Jong Woo *** 2/25 - Jacob * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f5742febad54f6c04e1f3f295bfe18718b8eb99c 1526 1519 2013-02-04T22:50:44Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 2/11 - Andrew *** 2/18 - President's Day * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5f573603bca760d3453ee0ecbecccfa7223bea35 1519 1518 2013-01-28T23:51:15Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 2/4 - Jim *** 2/11 - Andrew * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 313517a1ec475244694b66a9cce44a3cb375b38c 1518 1517 2013-01-14T21:07:20Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 1/21(?) - Jim *** 1/28 - Sebastian * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5eaa90d40a93d9cebc0623623ac301ec8a6a9665 1517 1516 2013-01-07T21:40:23Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 1/14 - Jim *** 1/21(?) - Sebastian * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 060f7df2a66abc845c5677cf7fb29119be185c88 1516 1508 2012-12-10T22:21:43Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 12/17 - Sebastian *** 12/24, 12/31 - Cancelled * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a847464d8d00a1c9ff7ba1dc9e5728e1fafbb1ff 1508 1499 2012-11-27T00:21:40Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 12/3 - Cancelled *** 12/10 - Leandra *** 12/17 - Edwin * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2c5bc05f608da0e9c81e920decfbd5d91e7bea9e 1499 1494 2012-11-19T23:48:46Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/26 - Leandra *** 12/3 or 12/10 - Edwin * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] dbe0cfaaadc962a94fa33eea69f609167d137bb1 1494 1493 2012-11-12T17:22:21Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/19 - Yeling *** 11/26 - Leandra * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2bff9044d97efa1f74021e651a8edcd17c5977c3 1493 1488 2012-11-05T23:06:57Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/12 - Yeling *** 11/19 - Leandra * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1ee6a141f77d5aa1b637c5ec295f4a8e95dc485e 1488 1481 2012-10-30T21:52:20Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/5 - Moses *** 11/12 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fa98c18495b37b46953c74269a71b6fec4197804 1481 1470 2012-10-22T22:48:53Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Mondays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 10/29 - Moses *** 11/5 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4dc8a816e183f4cd84ea2536e1cc477cf5b590d4 1470 1464 2012-08-29T19:12:54Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] aaee96684d38530948d80ac836d54e08cc6d7403 1464 1463 2012-07-06T18:19:56Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 07/12 - Yeling *** 07/19 - Moses * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 165809beeb1c8ca90489257e6a024ecaac179112 1463 1462 2012-07-03T00:17:33Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 07/05 - Yeling *** 07/12 - Moses * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4d380aec774553bf1de629eb4e1d6ef823df3e14 1462 1459 2012-06-14T17:50:38Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 06/21 - Yeling *** 06/28 - Edwin * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9729ab57b2c39fe9e88f10e09056ac06f4ae2158 1459 1456 2012-06-07T22:20:46Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 06/14 - Yeling *** 06/21 - Edwin * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 95efb3d68172f853b1d8f14fcb7b8c63365a47fd 1456 1445 2012-06-01T01:57:44Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 06/07 - Yeling *** 06/14 - Leandra * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 71b9aecf596294b8ad571254c1b7bf3a1b08fe68 1445 1444 2012-05-24T21:10:24Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/31 - Moses *** 06/07 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1470e022a1d898a2955b0a4dc16d5884e677eeaa 1444 1438 2012-05-22T05:50:18Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/24 - Moses *** 05/31 - Yeling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3e9ab4fdc8d390bd8157e712929273619f1e328d 1438 1433 2012-05-18T07:13:48Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/24 - Alisa *** 05/31 - Moses * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 572758f8c9e072fa2f79170d8641841a247a0f36 1433 1417 2012-05-11T07:30:15Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/17 - Alisa *** 05/24 - Moses * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1e48f9dbb06ab558f5141777c61d3b9db156a122 1417 1416 2012-04-27T16:35:01Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/03 - Jong Woo *** 05/10 - Jacob * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1093bfab70285175dd4cf9bc678e2eed8ee79fdc 1416 1377 2012-04-27T01:50:59Z Leandra 27 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 05/03 - Jong Woo * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] bdf0eb654e26101cda7f11afe17dc7a901c2ba4c 1377 1376 2012-01-29T19:56:43Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Friday at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 02/03 - Ash *** March Meeting Practice * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4bb81bc0a6d1922268871e8a4b0fe9a72d3cda93 1376 1375 2012-01-29T19:55:35Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Friday at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** March Meeting Practice * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6b9da3d16d7c580bc7bd3b90690de07779acad07 1375 1370 2012-01-23T06:31:06Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Thursday at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** March Meeting Practice * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9457b6b7bdfc8f2bf7d9ed405171d3b0657a1a31 1370 1369 2011-11-30T23:03:57Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/16 Alisa Agafonova: High Harmonic Generation *** 11/30 Jong Woo Kim: Quasicrystals * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9c16eba19c368412d2ac723789c965454ad82079 1369 1365 2011-11-30T20:33:30Z Yeling121 6 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br />Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] *'''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br />Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/16 Alisa Agafonova: High Harmonic Generation *** 11/23 * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 763cc6d12f1941b24b0327b7c979e5efd9c0aaa2 1365 1364 2011-11-17T22:47:28Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/16 Alisa Agafonova: High Harmonic Generation *** 11/23 * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 24afe6aa2e0d1caeb551b5de2c966bcecef1181c 1364 1362 2011-11-09T23:29:30Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/16? Alisa Agafonova: High Harmonic Generation * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b9c76f66284aa9b3353ebb525df1351472b909a7 1362 1360 2011-11-03T19:03:22Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 11/9? Alisa Agafonova: High Harmonic Generation * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b2f83dd2c03b8c6668d636370e4d549929084290 1360 1359 2011-10-19T21:57:45Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 10/26? Alisa Agafonova: High Harmonic Generation * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ba287a6ee9fbc35a223dc7542dc52274ad84fe14 1359 1355 2011-10-13T20:59:43Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 10/19 Alisa Agafonova: High Harmonic Generation * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 96838c935b46da060f693d10b89e8b8dc11082bc 1355 1353 2011-10-03T02:30:25Z Alisa 32 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 10/3 Alisa Agafonova: High Harmonic Generation * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] edaafd90c62c282727b3a733c5415775de85d26d 1353 1352 2011-09-28T18:02:20Z Alisa 32 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/28 Alisa Agafonova: High Harmonic Generation *** 10/5 Jong Woo Kim * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5d8dec48ad54c504650ecd2e6f68acf9ef8afee9 1352 1340 2011-09-28T03:40:33Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 2:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/28 Alisa Agafonova *** 10/5 Jong Woo Kim * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c9b416cc1b3a8cf1a952481e48890bef19009624 1340 1339 2011-09-23T20:34:09Z Alisa 32 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering *** 9/21 Leandra Boucheron - Coffee Ring Effect *** 9/28 Alisa Agafonova *** 10/5 Jong Woo Kim * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7bb77f94169399ef7ccaa7e5f5914c6029f19822 1339 1336 2011-09-21T19:59:03Z Alisa 32 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering *** 9/21 Leandra Boucheron - Coffee Ring Effect * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0653b3a6ab2a53592c9158d9be5ae466ac62c1e8 1336 1334 2011-09-09T22:05:11Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 38b69a0f715f2e907bdb3f97380445bea28853d5 1334 1333 2011-09-09T20:54:33Z Moses 24 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' <br> = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 158e0ef4b47d79369cd9915e89d5229d66e17c4f 1333 1331 2011-09-09T20:54:01Z Moses 24 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c9de192eeea379fe49a211945dbc1f9100e212a3 1331 1327 2011-09-09T20:53:07Z Moses 24 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {{:Group Members}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9c90478f6a2e5c7dbe2041893b10ca113b49ac2a 1327 1326 2011-09-09T20:48:35Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5eb89be483cbed8b29b40b383a7d039c265ca128 1326 1325 2011-09-09T20:48:09Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c049a249b874351b368115ec46b242cac37cb57f 1325 1323 2011-09-09T20:47:17Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellows|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 879cd46954c9b7ab5efa8e5b837e44da08620250 1323 1322 2011-09-09T20:46:39Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Group Members#Postdoctoral Fellow(s)|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2c866b5b8abeb8fbbadfdc81acfe30510d2b0b7e 1322 1320 2011-09-09T20:45:54Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Group Members#Current Group Members:|Current Group Members]]'' *''[[Group Members#Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7c8f7578120727e13f52ad2db5a8b722a97089bf 1320 1319 2011-09-09T20:32:59Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 22a2fe401e20f3e66ac0108683bb44cfba56ee01 1319 1318 2011-09-09T20:32:25Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com |X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f98d38ce7de582d4ed1cd971c6bfdc75705ce8ac 1318 1317 2011-09-09T20:30:16Z Moses 24 /* Principal Investigator */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator|Principal Investigator:]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 883ebac49904c5da838fb815329457678ea54d17 1317 1307 2011-09-09T20:29:27Z Moses 24 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = ==[[Group Photo]]== {{:Group Photo}} ==[[Principal Investigator]]== {{:Principal Investigator}} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c1a7d56f2a15db0538ac2f86cdb4ab520135c31c 1307 1306 2011-09-09T20:17:17Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br />Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty <br /> [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract ''PNAS'' (2011)] * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d2a6a44d4790b11859d6bce08ea85bd1cd0b3a2b 1306 1305 2011-09-09T20:09:31Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]''' Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2011) * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 54eab36afb39ae9a7a0428b0fb8df6f04f4b4013 1305 1304 2011-09-09T20:09:23Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]''' Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2011) * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fb40de52120d9f00787de9ef530bf95db0ea0cf7 1304 1301 2011-09-09T20:09:12Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = *'''[http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2011) * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 524fc3df63cba30989fc649e3256f533a3f46a36 1301 1297 2011-09-09T20:02:42Z Moses 24 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == {{:News:}} *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4cda6137c3b1d63020e506cd02255e39abf02c96 1297 1290 2011-09-09T19:47:23Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == [[Group Members|Members:]] == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7eb3ec824c07ff1e88a362f34a9350079d8cfad3 1290 1285 2011-09-09T19:22:23Z Moses 24 /* Members: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Current Group Members]]'' *''[[Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b01176044d9f8774110977889e9f823900eaa51f 1285 1284 2011-09-08T21:50:13Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/14 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 92255b10fd5ff5fa74081adb212d36ef9e7123a2 1284 1283 2011-09-06T23:38:50Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** Friday 9/9 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 52a6bdeda0fd3c79fb5c3ae01bbbb9fcd545d1ab 1283 1282 2011-08-31T22:37:06Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 9/7 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fd4191c563ea4d511f1002d7a0e76ee842514c48 1282 1276 2011-08-24T22:28:30Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/31 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b612921211ffaeaec43104b0dc9046b89ad79bfc 1276 1275 2011-08-24T18:30:33Z Sebastian 30 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' * ''' [[Software]]''' * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com|X-ray Group Journal Club]''' * '''[[Presenting]]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/24 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] df7d73ce160eceb64fbcf9ce7af825335d8d8d38 1275 1274 2011-08-23T23:03:23Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/24 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f8b0f66d3b41a280963ea98027075de4f792007a 1274 1273 2011-08-19T23:58:14Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/26 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 78e22652f89d7c9877e41aadb2963130d276a761 1273 1272 2011-08-19T16:54:40Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/26 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 74f4150abd6a4b53da4d162a66ac8de53b19ddcc 1272 1269 2011-08-19T16:54:04Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * ""Aug 18, 2011"" Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/26 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3004325e089e74729dac2a559622da94a6e0147e 1269 1267 2011-08-19T00:45:10Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 8/26 Moses Marsh - Neutron Scattering * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 640a339b44be6e8d1b990f1e4f126e8d576b393c 1267 1265 2011-08-19T00:37:08Z Sebastian 30 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Members: == *''[[Members:|Current]]'' *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2da8d45446fbc66c2a882f0780d0f95ac6068a50 1265 1263 2011-08-19T00:24:11Z Sebastian 30 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == *''[[Alumni:|Alumni]]'' = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5459e6f61c7fd6d363fa6091ab966a5d6896d25d 1263 1262 2011-08-19T00:20:45Z Sebastian 30 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] Current Whereabouts: [http://physics.ucsd.edu/ Physics Graduate Student at UC San Diego] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 75c5b4665968f54d1b1ad546b4c233cc3cd28310 1262 1261 2011-08-19T00:18:59Z Sebastian 30 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2053abf6e1a71b037d51a062e4a56fad08b50dc5 1261 1260 2011-08-18T17:54:13Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml Physics Graduate Student at Stanford] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/ Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 48f904b3ec56fc1ad3bc18006567dd67598073a0 1260 1259 2011-08-18T17:53:50Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml|Physics Graduate Student at Stanford] |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/|Physics Graduate Student at UC Santa Barbara] |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2c272421d298021ff7e13419be33d18ceb1c70cc 1259 1254 2011-08-18T17:53:06Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Current Whereabouts: [http://www.stanford.edu/dept/physics/index.shtml], Physics Graduate Student at Stanford |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> Current Whereabouts: [http://physics.ucsb.edu/], Physics Graduate Student at UC Santa Barbara |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a9890d4cbe52044d3b7daa7a82547de04b4acc97 1254 1253 2011-08-18T05:03:45Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Bal]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 29fe6ccd207d13dc0704bfadadd52c503fd50bb8 1253 1250 2011-08-18T04:41:08Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right| Group Photo, Aug 17, 2011, (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung ]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c27ae4a2b91337300b6a967e3e5e7580e55d173a 1250 1247 2011-08-11T13:55:57Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1ccfd3b2cc5833cce9765eb07842a262c3397961 1247 1246 2011-07-22T21:00:36Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 no meeting *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ce45cdc70ed462ef614c1974bf7d6e2306ec246b 1246 1244 2011-07-20T21:44:57Z Brandon 35 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student 2006-2010<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses - "Magnetic Neutron Reflectivity" *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1bb6941015a911d7b3c28d4e167e948108a92b15 1244 1241 2011-07-20T21:38:29Z Brandon 35 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses - "Magnetic Neutron Reflectivity" *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 828d45aa27d4530223efcfc67e4306b836b960c3 1241 1237 2011-07-20T21:33:07Z Brandon 35 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |[[Image:brandon_icon.jpg|thumb|left|Brandon Stevenson]] |[[Brandon Stevenson]], Undergraduate Student<br />B.S. Physics, UC San Diego 2010<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses - "Magnetic Neutron Reflectivity" *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1c4f5ae8560a98535226c8d8283904ef986949d0 1237 1236 2011-07-19T02:08:17Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses - "Magnetic Neutron Reflectivity" *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 05428389910a80f025e43817ae5e4a066fa64e12 1236 1235 2011-07-19T02:06:53Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 12, 2011''' Ash Tripathi gets paper accepted into PNAS * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b16a15bfe9796557468e50d74f8b01031f2b9bae 1235 1234 2011-07-19T01:57:53Z Sebastian 30 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian - "Spin-Based Digital Logic" - Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. *** 7/29 Moses *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a29bd9058bb0da081b2f6abec905e5a87669c9b3 1234 1233 2011-07-16T02:43:28Z Alisa 32 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 Moses *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c87478ac53722721ca6e6236f31ae82b2783a895 1233 1232 2011-07-16T00:58:01Z Alisa 32 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.jpg|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4060002da19275c6ef3df762df89b8384899056b 1232 1227 2011-07-16T00:57:15Z Alisa 32 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:Alisa.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fc52bb87e4cd07a76e4a696bbdc71b052b86d900 1227 1225 2011-07-16T00:43:00Z Leandra 27 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Leandra_icon.jpg|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d9ee4fbdb791c8fd350f2ae776d0441950444aa6 1225 1224 2011-07-16T00:27:28Z Moses 24 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]]<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a50e034bf20e3a92035e9b8c5b3f6d58922d7a44 1224 1223 2011-07-16T00:26:48Z Moses 24 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[JongWoo|Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra|Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob|Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |[[Image:no_image_female.gif|thumb|left|Alisa Agafonova]] |[[Alisa|Alisa Agafonova]], Graduate Student 2011-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] af1d89e3afa6d5b0b9ef30bd2fd6a2d2d595670c 1223 1222 2011-07-16T00:22:29Z Moses 24 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 33f0309d035189d2ddd998af88f5b05a9fe1d7de 1222 1221 2011-07-16T00:22:03Z Moses 24 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:no_image_female.gif|thumb|left]] |[[Gurleen|Gurleen Kaur]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Brandon|Brandon Stevenson]] '''Research Topic:''' Light Scattering<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0e995f0e758483b68c8b2c7e73d43ca1e4b3f073 1221 1220 2011-07-16T00:19:02Z Moses 24 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0136f970995cf889471daaa58c8414acf75ea852 1220 1219 2011-07-16T00:15:46Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting *** 7/22 Sebastian *** 7/29 *** 8/5 no meeting (beamtime) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c58ad0f63bbcba8bd7007aabca151c418c73db45 1219 1218 2011-07-15T23:38:43Z Leandra 27 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech 2010<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6f53d1592a58a34c11e2097eece6a2033073c63a 1218 1217 2011-07-15T23:38:14Z Leandra 27 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B.S. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 11457284f66f960f201475e6020fd3a2dd2357e5 1217 1212 2011-07-15T23:21:46Z Jacob 33 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:jacob_icon.jpg|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 468e47923f52f5c3676078b31fa97925a2e6a8db 1212 1211 2011-07-15T23:01:44Z Jacob 33 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_male.gif|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz 2007.<br />M.S. Physics, UC San Diego 2009.<br />'''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 606df4fed316dcdcf36f62b4d9bee2ff070f3bfd 1211 1210 2011-07-15T22:51:13Z Jacob 33 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |- |[[Image:no_image_male.gif|thumb|left|Jacob Stanley]] |[[Jacob Stanley]], Graduate Student 2008-present<br />B.S Physics and B.S. Math, UC Santa Cruz.<br /> '''Research Topic:''' Fresnel Coherent Diffractive Imaging <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e015a760a511eab6c07edd484412c87984ecc54d 1210 1208 2011-07-13T18:03:36Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays (for now) at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7dd4c34a1448538794fc7bad6c21d11fc3d7efa9 1208 1207 2011-07-11T20:11:40Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/13 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 91178d2b0960b776db04a586e7e4b7827108562c 1207 1206 2011-07-11T20:11:05Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Wednesdays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/13 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6ee56d5437cacf4dd38526e38ad80a2219c8645d 1206 1198 2011-07-11T17:15:15Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 7/15 Return of the group meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c7d0ef792bcb26739d5425ba11a948693702641c 1198 1197 2011-06-11T04:20:48Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4322) *** 5/13 Edwin *** 5/20 Sam *** 5/27 Yeling *** 6/3 Oleg *** 6/10 no meeting *** 6/17 ? * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ab308f05b07325c9477e0f6bc622b564b0ccff3b 1197 1196 2011-06-11T04:19:40Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4322) *** 5/13 Edwin *** 5/20 Sam *** 5/27 Yeling *** 6/3 Oleg *** 6/10 no meeting *** 6/17 ? * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d2f36191bdbf5ac3b7a8e885bb613d9b110160f9 1196 1194 2011-06-11T04:19:21Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://aip.ucsd.edu/students/interns%20of%20the%20year.html article] is written about her on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4322) *** 5/13 Edwin *** 5/20 Sam *** 5/27 Yeling *** 6/3 Oleg *** 6/10 no meeting *** 6/17 ? * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a858ba71dcb2bc6dd5281fb64464fdc829c91a4e 1194 1186 2011-06-07T22:36:52Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4322) *** 5/13 Edwin *** 5/20 Sam *** 5/27 Yeling *** 6/3 Oleg *** 6/10 no meeting *** 6/17 ? * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f3d8a959595b7e6f216c34844b66eecbce55068e 1186 1185 2011-05-07T01:07:57Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4322) *** 5/13 Edwin *** 5/20 Sam *** 5/27 Yeling *** 6/3 Sebastian * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] bc0e27b30152f1a6c7aaf64630c18e868bd1c457 1185 1184 2011-05-06T07:28:58Z Sebastian 30 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d9c3c9932492a7f5988b3b8461a7fa3c993d66b0 1184 1183 2011-05-06T07:19:10Z Sebastian 30 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} {| class='expandable' title='Foo bar table' id=1 | *foo *bar *baz |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b48d213ca8dfaafc23eabbc025c7a74ef9ef0c57 1183 1181 2011-05-06T07:11:49Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize] * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award] * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d9c3c9932492a7f5988b3b8461a7fa3c993d66b0 1181 1180 2011-05-06T06:59:22Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 John Holmes Malmberg Prize * '''May 4, 2011''' Charles Neill receiving the 2010-2011 Shang-Keng Ma Award * '''April 25, 2011''' Veronica Burnett becomes AIP's Intern of the Year for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] bf2ef6c5c35ccaa7a895530ac2aeda3a1da80a56 1180 1179 2011-05-06T02:28:02Z Sebastian 30 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''May 4, 2011''' Samuel Stanwyck receiving the John Holmes Malmberg Prize * '''May 4, 2011''' Charles Neill receiving the Shang-Keng Ma Award * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 8d3982e3a9121aa0478aa5bb96916202b86e84b7 1179 1178 2011-04-29T22:32:01Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4681) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1423e8c665a996e4686cb1f86737d8c3012f8ce1 1178 1177 2011-04-29T22:30:29Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (in room 4861) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 27bda0484b2ae38a5583b7ffbb0c6e4a0c4eddf8 1177 1176 2011-04-29T22:30:15Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM in Mayer 5623 ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo (*in room 4861) * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e8dd146e552851096bc67b840b77a5eebf282e9f 1176 1175 2011-04-29T22:29:01Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1:00 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 5/6 Jong Woo * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 26b3fd73501e378dba7fdc063caddb365ccfccac 1175 1174 2011-04-05T20:21:16Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' ??? at ??? ** ''Presentation schedule (subject to change abruptly and without notice):'' *** PENDING * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ad18c5130cb0f1cf684b71a865c07ba5fd88c7ab 1174 1172 2011-03-16T18:57:40Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 3/18 No meeting * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0d3cbfb18685c7d3229a182ecd5e4e7713062330 1172 1171 2011-02-24T19:24:37Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: no talk *** 02/18: no meeting *** 02/25: another meeting sacrificed *** 03/04: ?? most of the group at APS *** 03/11: ?? half of the group at APS *** 03/18: Jong Woo * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7d234fc6c7cce943882060e20a6ea692d258344c 1171 1170 2011-02-22T22:42:32Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: no talk *** 02/18: no meeting *** 02/25: Jong Woo *** 03/04: ?? *** 03/11: Sam *** 03/18: Ye Ling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2cf8630bbfbd1e3eaf4320efb71c628e73466050 1170 1166 2011-02-11T21:57:03Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: no talk *** 02/18: no meeting *** 02/25: March Meeting Practice? *** 03/04: Jong Woo *** 03/11: Sam *** 03/18: Ye Ling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 36938d4ef75fccf06129710bd1e2705d374c2229 1166 1165 2011-01-28T23:41:58Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: Anashe *** 02/18: Jong Woo *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''[[Group Calendar:|Group "Google Calendar"]]''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] aa8a027de6ac76c0c431c4aad798223f218062f7 1165 1164 2011-01-28T23:40:15Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: Anashe *** 02/18: Jong Woo *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ed7eb23f1d7a89958f147aadba46f9182122e5a8 1164 1162 2011-01-28T18:01:04Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Moses *** 02/11: Jong Woo *** 02/18: Anashe *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6e6b050e56475a76f0a4dfb6ba603fca322c01e0 1162 1161 2011-01-19T19:53:49Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Anashe *** 02/11: Jong Woo *** 02/18: Moses *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d82dd617ae2a89921bd68b11e7993355552ab6cc 1161 1160 2011-01-19T19:53:25Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars_colloquia.php UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Anashe *** 02/11: Jong Woo *** 02/18: Moses *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 15c649eccbf581e7b2a85e3c2c2fdd89c35ca2eb 1160 1159 2011-01-18T05:20:39Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Department Seminars] * '''Group Meetings:''' Fridays at 1 PM ** ''Presentation schedule (subject to change abruptly and without notice):'' *** 01/21: Leandra *** 01/28: Oleg *** 02/04: Anashe *** 02/11: Jong Woo *** 02/18: Moses *** 02/25: Sebastian *** 03/04: Edwin *** 03/11: Sam *** 03/18: Ye Ling * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c9100180d3dbc7ab2b8b73926196e26c55122736 1159 1158 2011-01-18T05:07:45Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3967dde719cff3ec55fcad718f34f061f7b6b8e1 1158 1157 2011-01-18T05:03:06Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [https://physics-calendar.ucsd.edu/ocas-bin/ocas.fcgi?sub=web&web=gbl&viw=x59ExM21kKynmIW4rDSSCQ%3d%3d&xen=U07n10f1LSY%3d&server=tbtzPzHLjyw%3d&ver=2 UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ba8a6a84de515ace85979c9829f8c4d9a7d9adf5 1157 1156 2011-01-18T05:02:20Z Moses 24 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] eabcda8f17784cc138f4c54a8fa300f142eed7da 1156 1155 2010-11-23T05:24:20Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Dr. Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. Technical Physics, Minor - Physical Electronics, St Petersburg State Technical University, Russia 2005 <br />M.Sc. Technical Physics , Minor - Physical Electronics, 2007<br />Ph.D. Physics\Material Science, University of Freiburg, Germany 2010 <br />'''Research Topic:''' Combination of first-principles, semi-empirical techniques and novel coherent x-ray imaging techniques to study the fundamental physics of novel materials with potential technological importance. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e0e84dac9f12b2575c78ff1c81fbf0b649f4ba6b 1155 1154 2010-11-23T05:09:10Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.Sc. , Technical Physics, Minor- Physical Electronics, St Petersburg State Technical University,Russia 2005 <br />M.Sc. ,Physics ,<br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 783130497b304c5bfb68994f78de802c7c4ef6f0 1154 1153 2010-11-23T04:59:16Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.S. , Technical Physics\Physical Electronics, St Petersburg State Technical University-Russia 2005 <br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 129e6f86e1509c7a996a96cfab5596edc02fa918 1153 1151 2010-11-23T04:57:32Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.S. , Technical Physics\Physical Electronics, St Petersburg State Technical University <br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fa44972c64381bceec4982588d9cd391dea12585 1151 1150 2010-11-23T04:18:36Z EdwinF 31 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.S. , , <br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f13e2df72b3b4aac3a25cd699616654ad558b9d2 1150 1147 2010-11-23T04:18:05Z EdwinF 31 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwing Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Dr. Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.S. , , <br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4390f8f5839080e250f1d476eb43fcb7f1872792 1147 1145 2010-11-23T02:02:06Z Sebastian 30 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwing Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Edwin.jpg|thumb|left|Edwin Fohtung]] |'''[[User:EdwinF|Edwin Fohtung]]''', Postdoctoral Fellow<br />B.S. , , <br />Ph.D. , , <br />'''Research Topic:''' Novel coherent x-ray imaging techniques. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0bc8f7fedd7aa651a2cc1eb9aa293f7ab4301e31 1145 1138 2010-11-12T19:22:08Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''November 8, 2010''' Postdoc Edwing Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0f6f7169a75bb912c7552802e3617d3b16003620 1138 1137 2010-10-26T03:40:05Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e8d9f4b7def8bd4647dd7b4d5dac1935fcaf53c4 1137 1093 2010-10-26T03:39:23Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''October 25, 2001''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] eb09d6ec84642565b14962f1c6fad86c3dade27c 1093 1092 2010-10-20T00:02:29Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] undergraduate researcher, 2008-2010 '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> Mike is currently a UCSD Physics Ph.D. student applying his knowledge of x-ray imaging and laser scattering to problems in Medical Imaging at UCSD Cancer Center. |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 86e2fc339aee15b296db94f44c90aeac8d02c9df 1092 1091 2010-10-20T00:00:11Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 1344b7d534401899427111f4167c830e3d7686c1 1091 1090 2010-10-05T02:22:10Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 542013954b92ea0bc08b48b99353e26399552be2 1090 1089 2010-10-05T02:21:23Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid Au$_{82}$Si$_{18}$ surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4117631356415ea005bb07eade025fe8be55eff1 1089 1088 2010-10-05T02:19:38Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid Au$_{82}$Si$_{18}$ surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics PhD program. (Sep. 2010) * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] cbce8229d9fedd162491a5a051e957a98fff12f7 1088 1087 2010-10-05T02:19:25Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 19, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid Au$_{82}$Si$_{18}$ surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics PhD program. (Sep. 2010) * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fac0978584758acaa07c1d6ee4e65c6eb1762818 1087 1069 2010-10-05T02:19:03Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''September 19, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid Au$_{82}$Si$_{18}$ surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/index.php?content= welcome.html MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics PhD program. (Sep. 2010) * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e6d37496ed7d133480c9f31705306ef170a0bbe9 1069 1062 2010-08-12T04:21:20Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |- | |} {| class="wikitable"\n == Principal Investigator: == |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c6a7798130ebda2d102f546a81a53681c29a6027 1062 1061 2010-08-06T01:07:36Z Moses 24 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] *''[[News:|More News]]'' = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6255d3a0cbcd17f83059aec2f375b45f2123483f 1061 1059 2010-08-06T01:05:32Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] * [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 35e059e7077904b90c7edda4e4fd21386f33fd70 1059 1058 2010-08-06T01:03:46Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = * ''' [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] '''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] * ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] * ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] * ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 475ef9f8ebaa0d772ab135d32cc5661f1c32fc93 1058 1057 2010-08-06T00:35:06Z Moses 24 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 Phys. Rev. B 80, 125414 (2009)] ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Phys. Rev. B 79, 115417 (2009)] ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Phys. Rev. B 79, 075107 (2009)] ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B 76, 245436 (2007)] ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] [[Publications|''more'']] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 88cc942e78eb430f91617592c477dea8cfbce060 1057 1054 2010-08-06T00:34:43Z Oleg 2 /* Funding: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding sources. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] cea8a3347cd6dd820cabe1e760c5d03fe359b6f2 1054 1052 2010-08-06T00:24:35Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neill]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2e6967bdded6555ce6e8ef19722163921e983b2e 1052 1051 2010-08-06T00:19:40Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact the wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 21c2f2d0825fc4fd46cda2943d6c610d1fe9e3e5 1051 1050 2010-08-06T00:18:02Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4cf2d3162ac49641c98ddea2e82055636bceccdd 1050 1045 2010-08-06T00:13:55Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] = [[Group Members]] = {| class="wikitable"\n|-\n |- [[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a404e91121286eb24af63179257a0c13eafba0c2 1045 1044 2010-08-06T00:08:06Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 41971b68ab40468bf701bdb16c9dfb82c8e6447e 1044 1043 2010-08-06T00:06:15Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|800px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: Ash Tripathi (working/based in Argonne National Lab near Chicago, )]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9bb998d4a20b72903d196e5e5ef72266e44d9263 1043 1040 2010-08-06T00:06:05Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko Group Aug2010 large.jpg|thumb|600px|right|Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: Ash Tripathi (working/based in Argonne National Lab near Chicago, )]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c17eb15442ef55c9ced91fac92cb0b31ddc7c40d 1040 1039 2010-08-02T19:46:51Z WikiSysop 1 /* Funding: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group's research is generously funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f5e8b09a62232b3d3435fab1cf79b1a947306556 1039 1038 2010-08-02T19:46:08Z WikiSysop 1 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Funding:]] = Our group is funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b41289e03bf4f0b74821181344fe8ebaa783bdfc 1038 1036 2010-08-02T19:45:32Z WikiSysop 1 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Funding:]] == Our group is funded by DOE-BES, NSF CAREER, AFOSR-MURI, Hellman Foundation, Argonne LDRD as well as internal UCSD funding. = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4e39c6a106aa68e99068cc5c06b15b1dd408a5ff 1036 1035 2010-08-02T19:21:42Z WikiSysop 1 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Superconductivity and Correlated Electron Systems <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3d4c062cc0b0630c5d3addb588a20894b4ab8dd1 1035 1034 2010-08-02T19:18:34Z WikiSysop 1 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5e766a74be57d1c066d9f9f1fee309c71023b5eb 1034 1032 2010-08-02T19:17:59Z WikiSysop 1 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |- |[[Image:no_image_female.gif|thumb|left|Leandra Boucheron]] |[[Leandra Boucheron]], Graduate Student 2010-present<br />B. Sc. Physics, New Mexico Tech.<br /> '''Research Topic:''' Soft Matter and Liquid Surface Scattering <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f2379d0a70b37c85040222e0e60b59bd50101c54 1032 1031 2010-08-02T19:16:13Z WikiSysop 1 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3d2ffd083b5ed4887efd5b1d14203ac2acba0ba8 1031 1025 2010-08-02T19:14:58Z WikiSysop 1 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:magnus-icon.jpg|thumb|left|Magnus Heinz]] |[[Magnus Heinz]], undergraduate researcher, 2009-2010<br /> Current Whereabouts: Master's program in Computational Science, University of Frankfurt, Germany. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate researcher, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate researcher, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate researcher, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4a88512deee7242867d928b961569465d587a04c 1025 1020 2010-08-02T19:05:28Z WikiSysop 1 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5823dff20f976847897649d10f0e588df33684bb 1020 1008 2010-07-22T20:50:32Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d0eb688308415d0deb4ac4e366884c787c7223fa 1008 1007 2010-07-14T22:03:34Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ "SXNS 11"], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3feb065647740c144788330f7214d616afde92f0 1007 1006 2010-07-07T20:52:33Z Moses 24 /* Wiki Help */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 16a00a2067861c96a83c71783aaf6716d4113bc0 1006 1005 2010-07-07T20:52:09Z Moses 24 /* Wiki Help */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://meta.wikimedia.org/wiki/Help:Contents User's Guide Wikimedia User Guide] * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5f6dce457b1e473dd1723346700d769cbd46aba2 1005 1004 2010-07-07T20:51:24Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 19fd569e81102d247c60ab0a10142728abaf75a6 1004 1003 2010-07-07T20:51:10Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> <BR> <BR> <BR> <BR> <BR> = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6ab72ea2501f2e3f854c67523e8acca65b027802 1003 997 2010-07-07T20:50:43Z Moses 24 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR> = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f91ee3c2709d334966c9ce11dc6872863eb3fe92 997 978 2010-07-07T20:32:31Z Moses 24 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. If you need an account, or if you have any questions, please contact a wiki admin, [[Oleg Shpyrko]] or [[Moses Marsh]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 8131e368f9c62fab59876e1d1d55640fd84f6df0 978 970 2010-07-02T17:14:21Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[Group Presentations]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 606094370ced811704ee8c386c04fdaffa57a9e6 970 969 2010-07-02T16:58:01Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' * '''[[RSS Feeds]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] db3ff232969395a99ff263af0c09af1788f5fc3f 969 968 2010-07-02T01:22:33Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[http://shpyrko.wordpress.com X-ray Group Journal Club]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 77d28d08a7fbcacae14895b2aaca85ed2a620223 968 967 2010-07-02T01:22:19Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' * '''[[http://shpyrko.wordpress.com X-ray Group Journal Club]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 67d9e9f3a503b4b72aaf010ddfb8a19c401465bc 967 966 2010-07-02T01:17:39Z Moses 24 /* Reading & Reference: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Reading & Reference:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5f8a36ff7427530f9a11c7046a560121b8f0fbbd 966 962 2010-07-02T01:17:02Z Moses 24 /* Getting started */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Wiki Help = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] daa293a7e4e14a261f334503bbafbe9fd35e51e8 962 961 2010-06-18T00:23:32Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Light Scattering.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e3357320376fd618ce9d1652d211f8b62f4e0a70 961 954 2010-06-18T00:23:07Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[Charles Neil]] '''Research Topic:''' Light Scattering<br /> |- |[[Image:no_image_male.gif|thumb|left]] |[[David Kirszenblat]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6880cf98cf9b6144f36a6ecbf3b7ff2264ac7d32 954 953 2010-06-15T18:21:57Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fb182ad7cc1e0fbba6ce8d8ae771f6b5907a30b2 953 952 2010-06-15T17:45:16Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 54f4186de4e3d6fdafd9d7fc915a84eafde0af41 952 878 2010-06-15T17:44:46Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327|Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html|SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 13f73c4e19d5bf90ab2f9bc6093e7fdf66328e7a 878 826 2010-04-26T18:25:52Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsh]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a74c6ce346e7ed46581d52d9949fda5a608f3c34 826 808 2010-03-31T13:56:57Z Oleg 2 /* Teaching: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2010 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 76439ac3cc4deffa350b86d75904548f0c75d0b4 808 792 2010-03-22T19:27:16Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 120f862d6cf0306d875d1e97e83124ef5b113ba9 792 790 2010-03-08T15:39:46Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] '''Research Topic:''' Morphological instabilities in polymer nanostructures.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] dcfe6f611ac58ebb125b5e9bed3557abd1975339 790 788 2010-03-08T15:35:06Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:magnus-icon.jpg|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0fbf0107cf05c57b0ee4f5ff98f0c7322c85feb2 788 785 2010-03-05T04:14:47Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:Veronica_icon.jpg|thumb|left]] |[[Veronica Burnett]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 49e37b57aacce489de65f3817960d9af9f52cf5f 785 784 2010-03-03T04:04:24Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems. Light Scattering.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anashe Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Veronica Burnett]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 5666c9d5b461d82ebf1001a53b90dfda3cba6581 784 783 2010-03-03T03:47:58Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: [http://www.ethz.ch/index_EN ETH Zurich], Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, via UCSD exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6911012ca4b2984d8fe5519fa84ce42c3ebb3e04 783 780 2010-03-03T03:46:32Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently a Scientist at [http://www.ioap.tu-berlin.de/menue/arbeitsgruppen/ag_eisebitt/people/ Technical University Berlin]. <br /> [http://jyotirmohanty.googlepages.com Jyoti's website] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9d43dec88011d3456bcbab00e0e1070f148cb40b 780 775 2010-03-03T02:39:33Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:'''TBD <br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' TBD <br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 70806ea5086eb3708f4dd7a6a1479d81813afeb4 775 774 2010-03-03T02:30:08Z Oleg 2 /* Graduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Moses_icon.jpg|thumb|left|Moses Marsh]] |[[Moses Marsch]], Graduate Student<br />B.S. Physics, Univ. of California Santa Barbara 2009<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |- |[[Image:Jongwoo_icon.jpg|thumb|left|Jong Woo Kim]] |[[Jong Woo Kim]], MSE Graduate Student 2009-present<br />M. Sc. Seoul National University<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a067bafe045ff64c43fa7b7890fddb290aa4592a 774 773 2010-03-03T02:19:55Z Oleg 2 Undo revision 765 by [[Special:Contributions/FatimaLuna|FatimaLuna]] ([[User talk:FatimaLuna|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e13f224e375cbe2acda5ef574e54e21bfa42a4dc 773 772 2010-03-03T02:19:24Z Oleg 2 Undo revision 756 by [[Special:Contributions/Anatomiadvertorial|Anatomiadvertorial]] ([[User talk:Anatomiadvertorial|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 00fb683088aac81d8b3baea32b2dc56fbb7180ae 772 771 2010-03-03T02:18:25Z Oleg 2 Undo revision 746 by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 82265d11b646d446fc8a0fdec446cdaf2a1a2ad9 771 770 2010-03-03T02:18:01Z Oleg 2 Reverted edits by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]); changed back to last version by [[User:FatimaLuna|FatimaLuna]] <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 4f42a824d1bfb3e0d2fbb1d09c0660b5f3273e9b 770 769 2010-03-03T02:17:34Z Oleg 2 Undo revision 756 by [[Special:Contributions/Anatomiadvertorial|Anatomiadvertorial]] ([[User talk:Anatomiadvertorial|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3e78e58dcddca2c82847a8d4c046736f802cba59 769 768 2010-03-03T02:16:29Z Oleg 2 Reverted edits by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]); changed back to last version by [[User:FatimaLuna|FatimaLuna]] <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 4f42a824d1bfb3e0d2fbb1d09c0660b5f3273e9b 768 765 2010-03-02T22:16:57Z Oleg 2 /* Getting started */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3e78e58dcddca2c82847a8d4c046736f802cba59 765 756 2010-03-01T21:57:50Z FatimaLuna 23 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]][http://www.research-service.com research papers] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 4f42a824d1bfb3e0d2fbb1d09c0660b5f3273e9b 756 746 2010-02-12T22:55:12Z Anatomiadvertorial 21 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 69612ec41c2dbce4970ba63f574296d180a0ab99 746 745 2010-01-12T16:03:46Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com Jyoti's website]] |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b4a5f75d14f2351d2580690104a90cc23378b05e 745 744 2010-01-12T16:02:38Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com|Jyoti's website]] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e13f224e375cbe2acda5ef574e54e21bfa42a4dc 744 743 2010-01-12T16:02:00Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow, 2008-2009<br /> <br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. Currently at Technical University Berlin. [[http://jyotirmohanty.googlepages.com/|website] |} |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 93f736e6bcfa60ceca45589f54e758cdf248e8f0 743 740 2010-01-12T16:01:08Z Oleg 2 /* Postdoctoral fellow(s): */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == N/A == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] cc34ec7644df55d695009f8e57806880c95d6b00 740 737 2009-12-16T03:58:13Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7baf4a1b572031264b5458d826f88f6e7750f09d 737 736 2009-12-11T17:47:33Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]], undergraduate student, 2008-2009 |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]], undergraduate student, 2008-2009<br /> Current Whereabouts: Scotland, exchange program. |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]], undergraduate student, 2008-2009 |- |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 076d2e37bced5f0fa02304e03ac194e02a584e7f 736 735 2009-12-11T17:43:51Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]] |- |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ad1da305687078ba1db393eeb1bf04f584147f26 735 734 2009-12-11T17:43:33Z Oleg 2 /* Group Alumni: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |- |[[Image:Sarah_icon.jpg|thumb|left]] |[[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |[[Andrew McLeod]] |- |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3329cd8a3d105163deb7c73c3e5da3739f224513 734 733 2009-12-11T17:43:00Z Oleg 2 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |[http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |[[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:no_image_female.gif|thumb|left]] |[[LLuvia Rodriguez]] |- |[[Image:no_image_female.gif|thumb|left]] |[[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Magnus Heinz]] |- |[[Image:no_image_male.gif|thumb|left]] |[[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 660c2b1536c8e96655052cbe3638ce714fef5fed 733 732 2009-12-11T17:41:28Z Oleg 2 /* Principal Investigator: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f6ed0852747e63955b2281653488d74abd67fe39 732 725 2009-12-11T17:41:14Z Oleg 2 /* Principal Investigator: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3210 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4a1e1d076a8916c25c9367bbc0719f00a1377f46 725 724 2009-11-15T16:39:06Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award] * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4b472ec23f7e1a89e5daa44d7e013cd6897763d2 724 723 2009-10-15T11:31:46Z Mfolkerts 10 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [http://ucsd.etherbytes.com/ Michael Folkerts ] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 6edd4a8e32726cade329b13e0d8d2e74178a0612 723 721 2009-10-15T11:24:46Z Mfolkerts 10 /* Undergraduate Students: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] '''Research Topic:''' Dynamics of Jammed Systems.<br /> |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a49af28dcb55a86e8f2918fdf805e4e1c83641aa 721 720 2009-09-17T22:14:07Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} = [[Teaching:]] = The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' = [[Research:]] = * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' = [[Publications]] = [http://shpyrko.wordpress.com X-ray Group Journal Club] = [[Group Calendar:]] = * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' = UCSD Physics Department: = [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. = Getting started = * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d26e5fd49f832cbdbdbc34f9024e55962ffdab52 720 719 2009-09-17T22:12:33Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} ='''[[Group Members|Detailed Group Listings]]'''= == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' == UCSD Physics Department: == [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f4069a8d25684dbb9dd14f45870ece9f066c1f48 719 679 2009-09-17T22:10:19Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == Principal Investigator: == {| class="wikitable"\n|-\n |- |[[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] |'''[[User:Oleg|Oleg Shpyrko]]'''<br />Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] Ph.D. Physics, Harvard University, 2004 * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?) * Phone (Google Voice, preferred): 858-952-1248 * Phone (Office): 858-534-3066 |} == Postdoctoral fellow(s): == {| class="wikitable"\n|-\n |- |[[Image:Jyoti_icon.jpg|thumb|left|Dr. Jyoti Mohanty]] |Dr. [[Jyoti Mohanty]], Postdoctoral Fellow<br /> Ph.D. Physics, Paul Drude Institute, Humboldt University, Germany 2005<br /><br />'''Research Topic:''' X-ray magnetic dichroism studies of magnetic thin films, magnetic and orbital domains in manganese oxides, charge density wave systems. |} == Graduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Ash_icon.jpg|thumb|left|Ash Tripathi]] |[[Ash Tripathi]], Graduate Student<br />B.S. Electrical Engineering, U. Illinois Urbana-Champaign 2005<br />M.S. Physics, UC San Diego 2007<br /><br />'''Research Topic:''' Novel coherent x-ray imaging techniques, ptychographic iterative engine, lens-less imaging. Nanodiffraction studies of metal-insulator transition. |- |[[Image:Yeling_icon.jpg|thumb|left|Yeling Dai]] |[[Yeling Dai]], Graduate Student<br />B.S. Physics, The University of Science and Technology of China, 2006<br />'''Research Topic:''' Dynamics of nanoconfined materials, Liquid Surface Scattering. |- |[[Image:Sebastian_icon.jpg|thumb|left|Sebastian Dietze]] |[[Sebastian Dietze]], Graduate Student<br />B.S. Physics, U Texas Austin 2008<br /> '''Research Topic:''' Magnetic nanostructures.<br /> |} == Undergraduate Students: == {| class="wikitable"\n|-\n |- |[[Image:Mike_icon.jpg|thumb|left]] |* [[Michael Folkerts]] |- |[[Image:Sarah_icon.jpg|thumb|left]] |* [[Sarah Garcia]] |- |[[Image:Andrew_McLeod_icon.jpg|thumb|left]] |* [[Andrew McLeod]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[LLuvia Rodriguez]] |- |[[Image:Sam_Stanwyck.jpg|thumb|150px|left]] |* [[Sam Stanwyck]] |- |[[Image:no_image_female.gif|thumb|left]] |* [[Anache Bandari]] |- |[[Image:no_image_male.gif|thumb|left]] |* [[Kevin Duggento]] |- |} == Group Alumni: == {| class="wikitable"\n|-\n |- |[[Image:Loic_icon.jpg|thumb|left|Loic Jacot Dewcombes]] |[[Loic Jacot Descombes]], visiting student, Nov 2008-April 2009<br /> Masters Student at ETH Zurich, Switzerland<br /> '''Masters Thesis:''' Dynamic Light Scattering studies of fluid microdynamics ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])<br /> B.S. Physics, Ecole Polytechnique federale de Lausanne, Switzerland 2007<br /> '''Research Topic:''' Light Scattering Studies of micro- and nano-particles.<br /> Current Whereabouts: ETH Zurich, Switzerland. |} == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' == UCSD Physics Department: == [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] cf6226a45d58d598efed2ed1f1e4b7b2dfbf5224 679 678 2009-07-01T05:42:22Z Oleg 2 /* UCSD Physics Department: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' == UCSD Physics Department: == [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] <BR> <BR><BR> <BR> <BR> <BR> <BR> <BR><BR> <BR> --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a1c32482a99a23f4bd3259f4f03a84efa472f9b1 678 676 2009-07-01T05:41:24Z Oleg 2 /* About Us: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' == UCSD Physics Department: == [[Image:UCSD_Physics_Department_2008.jpg|thumb|500px|left|UC San Diego Physics Department Faculty]] * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://physics.ucsd.edu/seminars UCSD Physics Seminars and Colloquia] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9903953a1d31abc373243e933603ff0dc724949f 676 664 2009-07-01T05:35:13Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' == About Us: == * [http://x-ray.ucsd.edu/mediawiki/images/0/09/UCSD_listings.pdf UCSD Physics Department Graduate Program Listings] * [http://physics.ucsd.edu/ UCSD Physics Department Website] * [http://x-ray.ucsd.edu/Physics%20Booklet%20REV%204-24-09.pdf UCSD Physics Department Brochure] --- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 905c8cce564f0ea1d18febaa539cdd4c3bea1193 664 663 2009-06-30T14:57:42Z Oleg 2 /* Research: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' * '''[[Presenting]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 56e2dbfc93471de600141cb9fd4646fc3dac60b3 663 662 2009-06-29T18:30:36Z Oleg 2 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == [http://shpyrko.wordpress.com X-ray Group Journal Club] == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 9d2effd15ec8b71acdd2b8c5342b3eea0f7260c8 662 661 2009-06-29T18:29:28Z Oleg 2 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == <iframe> url=http://x-ray.ucsd.edu/journalclub.htm width=500 align=right height=adjust name=myframe </iframe> == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] eebdb8d2314b9905872513880c01dbce45f3a5d7 661 660 2009-06-29T18:29:10Z Oleg 2 /* Publications */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == <iframe> url=http://x-ray.ucsd.edu/journalclub.htm width=1200 align=right height=adjust name=myframe </iframe> == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] d35707706aa72c633a5926b259c748ace553fcf7 660 659 2009-06-29T18:28:25Z Oleg 2 Undo revision 657 by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0791290f6f9faeace13f5b6196722993f9b12b4e 659 658 2009-06-29T18:27:34Z Oleg 2 Undo revision 658 by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == * == Literature Survey/Journal Club: == <iframe> url=http://x-ray.ucsd.edu/journalclub.htm width=1200 align=right height=adjust name=myframe </iframe> * == More: [http://shpyrko.wordpress.com X-ray Group Journal Club] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 83dc9445bc71724ab11a7450de83b3808f0f91c9 658 657 2009-06-29T18:26:56Z Oleg 2 Reverted edits by [[Special:Contributions/Oleg|Oleg]] ([[User talk:Oleg|Talk]]); changed back to last version by [[User:98.197.98.65|98.197.98.65]] <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- JSaakr <a href="http://xsfbslkizbkx.com/">xsfbslkizbkx</a>, [url=http://jzyamifarhja.com/]jzyamifarhja[/url], [link=http://ylzrgkkwnezw.com/]ylzrgkkwnezw[/link], http://mohrfhqzpsac.com/ == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2671b7e89bfef6afe344d052a87a2e05cd40752a 657 625 2009-06-29T18:26:22Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == * == Literature Survey/Journal Club: == <iframe> url=http://x-ray.ucsd.edu/journalclub.htm width=1200 align=right height=adjust name=myframe </iframe> * == More: [http://shpyrko.wordpress.com X-ray Group Journal Club] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 83dc9445bc71724ab11a7450de83b3808f0f91c9 625 617 2009-06-10T02:07:40Z Oleg 2 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] (currently on Summer hiatus) * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 0791290f6f9faeace13f5b6196722993f9b12b4e 617 615 2009-06-09T04:43:25Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == {| class="wikitable"\n|-\n |- |[[Image:Shpyrko_group_June_08_2009.jpg|thumb|400px|right|Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] |} '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c10e5102ef36407489fcd0e85c5e61c0e9c7ac3d 615 589 2009-06-09T04:39:59Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == [[Image:Shpyrko_group_June_08_2009.jpg|400px|thumb|left|'''Group Photo''', June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Not pictured: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3e0564d20098d0580681cc9a8066744ac7e7f5cb 589 588 2009-06-06T01:17:08Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] (add your name here) '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] f33d027040fb6d63c8382dabc33cfafa320420cd 588 568 2009-06-06T01:16:40Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''June 5, 2009:''' New [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction Postdoc position: X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] (add your name here) '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c64d6d2ae2766168af706629b99e54669f31f368 568 567 2009-05-26T03:07:20Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] (add your name here) '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] aaba8ed52cf162e0998046846256ea2201c4f2cc 567 505 2009-05-26T03:07:07Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] (add your name here) '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 4c1d292ebe3de2c083e993bfce5bbf669405e414 505 496 2009-05-06T21:03:18Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] cd0b69afdfd49ec5890ebed53702e1da5f6563b4 496 490 2009-05-06T03:32:27Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] be182050e13f80fea146eca150f20f4eecb1fc7f 490 489 2009-05-06T03:24:01Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' [[Oleg]] named [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a4b745aff100e26796ba10292a6f0e3622b4478d 489 462 2009-05-06T03:22:45Z Oleg 2 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''May 4, 2009:''' Oleg Shpyrko named Hellman Fellow * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 20c52fafba22c27efb577d7dcb775367e944e70d 462 345 2009-05-02T16:28:36Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' == [[Publications]] == == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] c470fb6368c2be4629aacf2e7dd829c1c35fae8f 345 342 2009-04-24T15:24:21Z Oleg 2 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == * [http://physics.ucsd.edu/seminars UCSD Physics Department Seminars] * '''Brief Upcoming Group Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 3484460b25402bac0e359803607416eba8de281e 342 340 2009-04-24T15:06:22Z Oleg 2 /* Getting started */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == * '''Brief Upcoming Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 05db951d2e601279be5c563c4d754907a1fe14bf 340 329 2009-04-24T14:42:56Z Oleg 2 /* Getting started */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == * '''Brief Upcoming Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] <analytics uacct="UA-8527539-1" ></analytics> 9b14ad76d627802befe17433c5904437745a1318 329 328 2009-04-22T20:48:49Z Oleg 2 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == * '''Brief Upcoming Agenda:''' <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> * '''[[Group Calendar:|Full Group Calendar]]''' Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 05db951d2e601279be5c563c4d754907a1fe14bf 328 327 2009-04-22T20:46:09Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == Brief List: * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] '''[[Group Members|Detailed Group Listings]]''' == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a369381b332c2952cb7aad3b2a46fad50b796ffd 327 326 2009-04-22T20:44:39Z Oleg 2 /* Group Members */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == * [[Oleg Shpyrko]] * [[Jyoti Mohanty]] * [[Ash Tripathi]] * [[Yeling Dai]] * [[Sebastian Dietze]] * [[Michael Folkerts]] * [[Sarah Garcia]] * [[Andrew McLeod]] * [[LLuvia Rodriguez]] * [[Sam Stanwyck]] * [[Anache Bandari]] * [[Kevin Duggento]] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 80ebce779fe2f33eaaa99ce02b028a96af9e55f1 326 295 2009-04-22T20:40:56Z Oleg 2 /* Group Calendar: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == <iframe> url=http://www.google.com/calendar/embed?showPrint=0&amp;showCalendars=0&amp;mode=AGENDA&amp;height=300&amp;wkst=2&amp;bgcolor=%23FFFFFF&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%234E5D6C&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="500" height="300" width=50% align=right height=adjust name=myframe </iframe> Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 95189a0d31bd1a6b31e86a3c14afbd869cc0f1ef 295 217 2009-04-22T16:10:50Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Group Members]] == == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 028bf588bfed60c703fe989a1bf96036da9ba119 217 213 2009-04-19T21:26:54Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. You must create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. Use [http://x-ray.ucsd.edu/mediawiki/index.php/Sandbox Sandbox] to practice wikipedia syntax. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b3f99ad05ebec5b2203e8748d6714d4fd5229f7e 213 212 2009-04-17T22:53:23Z Oleg 2 Protected "[[Main Page]]" [edit=autoconfirmed:move=autoconfirmed] <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] def0a3c5a2e8b4f56dfa32cbab9190795a46c925 212 210 2009-04-17T22:53:07Z Oleg 2 Undo revision 210 by [[Special:Contributions/98.197.98.65|98.197.98.65]] ([[User talk:98.197.98.65|Talk]]) <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] def0a3c5a2e8b4f56dfa32cbab9190795a46c925 210 208 2009-04-17T20:34:26Z 98.197.98.65 0 /* News: */ <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- JSaakr <a href="http://xsfbslkizbkx.com/">xsfbslkizbkx</a>, [url=http://jzyamifarhja.com/]jzyamifarhja[/url], [link=http://ylzrgkkwnezw.com/]ylzrgkkwnezw[/link], http://mohrfhqzpsac.com/ == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2671b7e89bfef6afe344d052a87a2e05cd40752a 208 186 2009-04-17T04:23:05Z Oleg 2 <big>'''[http://oleg.ucsd.edu BACK TO X-RAY GROUP PAGE]'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] def0a3c5a2e8b4f56dfa32cbab9190795a46c925 186 111 2009-04-15T15:26:08Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- == [[Group Calendar:]] == Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 942e33819b294cd4bd3341b51b4479454fce208f 111 110 2009-04-05T16:39:16Z Oleg 2 /* News: */ <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] [http://x-ray.ucsd.edu/mediawiki/index.php/News: More News] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a424836f3f23f3f27c9aea61e3cd6065539f78a3 110 107 2009-04-05T16:38:50Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 2f4d01aa2fac6adf3f57d1524c72bd16288ac85a 107 100 2009-04-05T16:25:40Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- == [[News:]] == * March 31, 2009: Loic defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! == [[Teaching:]] == The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' == [[Research:]] == * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] ac47432206a05b4602c3adc43c08ad9dac946377 100 99 2009-04-04T16:12:18Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- [[News:]] * March 31, 2009: Loic defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[[Manuals]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] b7fcc173b9bc55c3afa46edda85948f3843fc3df 99 97 2009-04-04T16:12:05Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- [[News:]] * March 31, 2009: Loic defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' * '''[Manuals]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 434a59a735cf2a9eeef7076ee247192de0449fb0 97 87 2009-04-04T16:01:53Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- [[News:]] * March 31, 2009: Loic defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 417d1996c339c9953ec6c84409f69e7273299b99 87 86 2009-04-04T15:32:36Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. Anonymous contributions are now enabled. You can also create new name account at [http://x-ray.ucsd.edu/mediawiki/index.php?title=Special:Userlogin&type=signup create account] page. For any questions please contact wiki admin, [[Oleg Shpyrko]]. ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- * ''' [[Reading lists]]''' for the group * '''[[Equipment]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] a380b9e53fa0656fc815f38d9b47c49c86c6d402 86 52 2009-04-04T15:24:47Z 132.239.1.231 0 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. 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Group - Feel free to create new pages or edit existing pages as you see fit. If you need to create an account, please contact [[Oleg Shpyrko]]. ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- * ''' [[Reading lists]]''' for the group ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] fc41924dfbb0c3b2d2ffc2d9d88db6df93acab8d 40 25 2009-04-01T02:59:18Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. If you need to create an account, please contact [[Oleg Shpyrko]]. ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' [[Reading lists]] ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 7eae2ee265e15eb40dd81ca3aa07eb37534a7e95 25 24 2009-03-21T15:18:31Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. If you need to create an account, please contact [[Oleg Shpyrko]]. ---- The Webpage for Spring 2009 quarter of '''[[PHYS_100C]]''' ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] 33f047ad28d29cba4c7f398c0ee16fb573e5441c 24 3 2009-03-21T15:17:57Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Group - Feel free to create new pages or edit existing pages as you see fit. If you need to create an account, please contact [[Oleg Shpyrko]]. ---- The Webpage for Spring 2009 quarter of [[PHYS_100C]] ---- Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software. == Getting started == * [http://www.mediawiki.org/wiki/Manual:Configuration_settings Configuration settings list] * [http://www.mediawiki.org/wiki/Manual:FAQ MediaWiki FAQ] * [http://lists.wikimedia.org/mailman/listinfo/mediawiki-announce MediaWiki release mailing list] e0b96ae8e10546243a95f1e17010cce93545595c 3 1 2009-01-25T05:16:37Z Oleg 2 <big>'''MediaWiki has been successfully installed.'''</big> Welcome to the Shpyrko Group Wiki. Feel free to create new pages or edit existing pages as you see fit. 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Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 16f4b9933d92e1c6e2c73b2b33b0f28175feb0c9 1992 1987 2018-11-27T05:17:42Z Dcela 47 /* Group News: */ == Group News: == <onlyinclude> * '''May 2018''' Our paper on [https://www.nature.com/articles/s41560-018-0184-2 dislocation dynamics in layered oxide cathode materials during battery charging] is published in Nature Energy. * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron published her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [https://www6.slac.stanford.edu/news/2015-09-17-roopali-kukreja-wins-2015-klein-award-x-ray-work.aspx Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' [http://www.anl.gov/articles/new-imaging-capability-reveals-possible-key-extending-battery-lifetime-capacity Our paper on Lens-Less Imaging of Ionic Diffusion in Operating batteries is featured on APS website] * '''May, 2014''' [https://chemmatcars.uchicago.edu/news/chemmatcars-user-leandra-boucheron-wins-poster-award-2014-aps-users-meeting Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting]! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} e6f9d2502788c01c74e49d0d9ace2cc56587ecc9 1987 1771 2018-11-27T03:30:48Z Dcela 47 == Group News: == <onlyinclude> * '''May 2018''' Our paper on [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] is published in Nature Energy. * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron published her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [https://www6.slac.stanford.edu/news/2015-09-17-roopali-kukreja-wins-2015-klein-award-x-ray-work.aspx Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' [http://www.anl.gov/articles/new-imaging-capability-reveals-possible-key-extending-battery-lifetime-capacity Our paper on Lens-Less Imaging of Ionic Diffusion in Operating batteries is featured on APS website] * '''May, 2014''' [https://chemmatcars.uchicago.edu/news/chemmatcars-user-leandra-boucheron-wins-poster-award-2014-aps-users-meeting Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting]! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 8f8c980c919ee1f9bdde9bf40062c6163e3e0bf8 1771 1770 2016-02-05T04:40:17Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [https://www6.slac.stanford.edu/news/2015-09-17-roopali-kukreja-wins-2015-klein-award-x-ray-work.aspx Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' [http://www.anl.gov/articles/new-imaging-capability-reveals-possible-key-extending-battery-lifetime-capacity Our paper on Lens-Less Imaging of Ionic Diffusion in Operating batteries is featured on APS website] * '''May, 2014''' [https://chemmatcars.uchicago.edu/news/chemmatcars-user-leandra-boucheron-wins-poster-award-2014-aps-users-meeting Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting]! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} fd0febb87cd8aa83a86bcb87295ad58d86e0569f 1770 1769 2016-02-05T04:33:59Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' [http://www.anl.gov/articles/new-imaging-capability-reveals-possible-key-extending-battery-lifetime-capacity Our paper on Lens-Less Imaging of Ionic Diffusion in Operating batteries is featured on APS website] * '''May, 2014''' [https://chemmatcars.uchicago.edu/news/chemmatcars-user-leandra-boucheron-wins-poster-award-2014-aps-users-meeting Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting]! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} f8691e256ec17d86ed8146bce1106f78fd6edc5a 1769 1768 2016-02-05T04:25:25Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' [https://chemmatcars.uchicago.edu/news/chemmatcars-user-leandra-boucheron-wins-poster-award-2014-aps-users-meeting Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting]! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 4f78f5d914aeac6826ce3a25635ce964c90c7859 1768 1767 2016-02-05T04:22:51Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} e203ddc90a57871f3eba07ec1bb4f2ae52d0d9f2 1767 1766 2016-02-05T04:22:30Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Professor at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [[http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 9af60ec8bc610c55879b6e42af82b6d1e27f3000 1766 1765 2016-02-05T04:21:57Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [http://www.anl.gov/articles/hydrogen-uptake-causes-molecular-avalanches-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Lecturer faculty at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [[http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 0f94e78503e639af42b4ef8ff7093139d93b30fe 1765 1764 2016-02-05T04:21:04Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [https://www1.aps.anl.gov/APS-Science-Highlight/2016/Hydrogen-uptake-causes-molecular-avalanches-in-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Lecturer faculty at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''September, 2015''' [http://www-ssrl.slac.stanford.edu/content/ssrl-news/melvin-p-klein-scientific-development-award Dr. Roopali Kukreja wins 2015 Klein Award!] * '''June 19, 2015''' [[http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Operando Nanoscale Imaging of dislocation dynamics in Li-Ion battery materials] work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis (after less than 3 years of research in our group!). Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''June 3, 2015''' [http://physics.ucsd.edu/awards/inamori2015winner.php Andrew Ulvestad wins 2015 Inamori Award]! * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''May, 2014''' Leandra Boucheron wins Best Poster Award at 2014 APS Users Meeting! * '''Jan, 2014''' [http://www.desy.de/news/@@news-view?id=6581&lang=eng Dr. Andrej Singer wins the Award of the Association of the Friends and Sponsors of DESY for best PhD Thesis!] * '''Jan, 2014''' Dr. Edwin Fohtung leaves the group - Edwin is now LANSCE Assistant Professor at University of New Mexico in a joint position with Los Alamos National Lab. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! Yeling will be starting as postdoc at UC Berkeley. * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] </onlyinclude> -- == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 41dfa9645b3cc7a83951eb90ad415cb0f4a2e746 1764 1763 2016-02-05T04:04:54Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [https://www1.aps.anl.gov/APS-Science-Highlight/2016/Hydrogen-uptake-causes-molecular-avalanches-in-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Lecturer faculty at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in [http://www.pnas.org/content/112/46/14206 PNAS]. * '''June 19, 2015''' Operando Batery Imaging work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis! Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 7f34ba8a0a7ec8aec7d849c163a674384f22c231 1763 1651 2016-02-05T04:04:11Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''January 2016''' Our paper on [https://www1.aps.anl.gov/APS-Science-Highlight/2016/Hydrogen-uptake-causes-molecular-avalanches-in-palladium atomic avalanche imaging of hydrogen storage palladium nanoparticles] is published in [http://www.nature.com/ncomms/2015/151211/ncomms10092/full/ncomms10092.html Nature Communications]. * '''October 8, 2015''' Leandra Boucheron her PhD Thesis! Leandra will be starting in Jan 2016 as Lecturer faculty at University of New Mexico! * '''October 6, 2015''' Our paper on "Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism" is published in PNAS! * '''June 19, 2015''' Operando Batery Imaging work is published in [http://science.sciencemag.org/content/348/6241/1344.full?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science]. See this News [http://ucsdnews.ucsd.edu/pressrelease/x_ray_imaging_reveals_secrets_in_battery_materials Story] at UCSD website. * '''June 3, 2015''' Andrew Ulvestad Defends his PhD Thesis! Andrew will be starting as Director's Postdoctoral Fellow at Argonne National Laboratory. * '''April 6, 2015''' Sebastian Dietze Defends his PhD Thesis! * '''Feb 3, 2015''' Jacob Stanley Defends his PhD Thesis! Jacob will be starting as a postdoc in Prof. Heather Lewandowski group in University Colorado Boulder. * '''Jan 23, 2015''' Jong Woo Kim Defends his PhD Thesis! Jong Woo will be starting as postdoctoral fellow at Argonne National Laboratory. * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 53d3fa977cbbd305773dfe9f397a76c7cb800a45 1651 1650 2013-11-07T19:43:26Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''Sept 13, 2013''' Yeling Dai Defends her PhD Thesis! * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} c7b8275bb00799ebee17dd360e49b0076876c028 1650 1454 2013-11-07T19:43:11Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''May 11, 2012''' Yeling Dai Defends her PhD Thesis! * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 51faef3b167ab0160cc93ffc1364aedfc73ead95 1454 1453 2012-05-26T13:35:00Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 APL] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 0637e4eee90892824b9c502781023fa687ef2ad5 1453 1366 2012-05-26T13:34:35Z Oleg 2 /* Group News: */ == Group News: == <onlyinclude> * '''May 11, 2012''' Antiferromagnetic Domain Wall Engineering paper is published in [APL http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1] * '''Jan 3, 2012''' Gurleen Bal receives [http://physics.ucsd.edu/awards/pictures/BalGurleen.jpg Dean's Excellence Award] and [http://physics.ucsd.edu/awards/UG_DeansAward2011.pdf Norm Taylor Award]. * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} b9765405cc18da147a97672c37371c399c3a4577 1366 1300 2011-11-30T20:22:40Z Yeling121 6 /* Group News: */ == Group News: == <onlyinclude> * '''Nov 30, 2011''' GIXOS and XR studies of Langmuir films papers are published in [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no JAP] and [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no JAP]. * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 8131133e3629bd8fb4f27d56f1d75a864a14656f 1300 1299 2011-09-09T20:02:23Z Moses 24 == Group News: == <onlyinclude> * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] </onlyinclude> -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 26b0e7147deba668e0dbeddc1fe228dc3632ddec 1299 1298 2011-09-09T20:01:48Z Moses 24 == Group News: == <onlyinclude> * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. </onlyinclude> * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} f2c94816218de5d941276f2bcc4a08433fa9ca7d 1298 1281 2011-09-09T19:54:20Z Moses 24 /* Group News: */ == Group News: == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 John Holmes Malmberg Prize]. Sam is enrolled in PhD program at Stanford. * '''May 4, 2011''' Charles Neill receiving the 2010-2011 [http://www-physics.ucsd.edu/news/newsstory.php?storyid=217 Shang-Keng Ma Award]. Charles is enrolled in PhD program at UC Santa Barbara. * '''April 25, 2011''' Veronica Burnett becomes [http://aip.ucsd.edu/students/interns%20of%20the%20year.html AIP's Intern of the Year] for 2010-2011 in Roger Revelle College. An [http://usrp.usra.edu/news/archive/2011/061011Burnett.shtml article] is written about her achievement on the USRA website. * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 353d5dd8f570ee14d8bc91aa990e897f30ded415 1281 1182 2011-08-24T18:41:56Z Sebastian 30 /* Group News: */ == Group News: == * '''Aug 18, 2011''' Our research group is featured in [http://www.fox5sandiego.com/videobeta/dc5b2e51-f8ea-4499-bf65-fb4a8ada74d8/News/UCSD-Developed-New-X-Ray-Microscope San Diego Channel 5 News at 10] Report. * '''Aug 8, 2011''' Ptychography imaging of GdFe magnetic domains paper is published in [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract PNAS]. PR appears in [http://ucsdnews.ucsd.edu/newsrel/science/2011_08xraymicro.asp UCSD News], [http://www.popsci.com/technology/article/2011-08/new-microscope-uses-x-rays-resolve-nanoscale-details Popular Science Magazine], [http://futureoftech.msnbc.msn.com/_news/2011/08/10/7334076-x-rays-provide-nano-views MSNBC], [http://www.foxnews.com/scitech/2011/08/19/better-than-superman-x-ray-microscope-enables-nanovision/ Fox News], [http://www.mrs.org/2011-08-10_Shpyrko_x-ray_microscope/ MRS Science News], [http://www.photonicsonline.com/article.mvc/Like-Supermans-X-Ray-Vision-New-Microscope-0001 Photonics Online] and other sources. * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 John Holmes Malmberg Prize * '''May 4, 2011''' Charles Neill receiving the 2010-2011 Shang-Keng Ma Award * '''April 25, 2011''' Veronica Burnett becomes AIP's Intern of the Year for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 73284c1223008fded0f63f435dd9c331bd1af1ae 1182 1167 2011-05-06T07:03:26Z Sebastian 30 /* Group News: */ == Group News: == * '''May 4, 2011''' Samuel Stanwyck receiving the 2010-2011 John Holmes Malmberg Prize * '''May 4, 2011''' Charles Neill receiving the 2010-2011 Shang-Keng Ma Award * '''April 25, 2011''' Veronica Burnett becomes AIP's Intern of the Year for 2010-2011 in Roger Revelle College * '''March 21-25, 2011''' Edwin Fohtung, Ash Tripathi, Yeling Dai, and Sebastian Dietze give contributed talks at APS March meeting * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] -- * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 5418111a1cec077ce737a20266c50f255ba8e746 1167 1026 2011-02-02T00:00:29Z Moses 24 /* Group News: */ == Group News: == * '''November 8, 2010''' Postdoc Edwin Fohtung joins the group. * '''October 25, 2010''' Undergraduate Researchers Sam Stanwyck, Charles Neill and Andrew McLeod among five physics recepients 2010 Dean's Excellence Award. * '''September 28, 2010''' Manuscript "Self-consistent interpretation of the 2D structure of the liquid AuSi surface: Bending rigidity and the Debye-Waller effect" is accepted for publication in [http://prl.aps.org/ Physical Review Letters]. * '''September 19, 2010''' Sebastian Dietze attends [http://mml2010.lbl.gov/ MML-2010] conference in Berkeley. * '''September 15, 2010''' Mike Folkerts joins UCSD Physics [http://www.ucsd.edu/apply/graduates/index.html PhD program] * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] -- * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} f416140d0895603d72a6e996ba07551c252f5d44 1026 1002 2010-08-02T19:06:23Z WikiSysop 1 /* Group News: */ == Group News: == * '''July 16, 2010''' Yeling Dai is the winner of the best poster award at [http://www.sxns11.northwestern.edu/ SXNS-11]. Congrats, Yeling! * '''July 14, 2010''' Graduate Student Yeling Dai attends [http://www.sxns11.northwestern.edu/ SXNS-11], The Eleventh International Conference on Surface X-ray and Neutron Scattering in Chicago, IL, and makes a contributed presentation. * '''June, 2010''' Graduate student Leandra Boucheron joins the group. Welcome, Leandra! * '''June 8, 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''April 2010''' Undergraduate Student Michael Folkerts selected as 2009-2010 receipient of UCSD [http://mcnairscholars.com/ McNair Scholar] award. Congrats, Mike! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March, 2010''' Graduate Students Jong Woo Kim and Moses Marsh join the group. Welcome! * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] -- * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 533688f653d4c74f76e79d08286462f9c57081f0 1002 1001 2010-07-07T20:47:08Z Moses 24 Undo revision 1001 by [[Special:Contributions/Moses|Moses]] ([[User talk:Moses|Talk]]) == Group News: == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 5bb4e96bde193f27a3c0bd36bcdd4d1a2d2a0723 1001 629 2010-07-07T20:46:23Z Moses 24 /* Group News: */ == Group News: == * '''June 8 2010''' Graduate Student Ash Tripathi attends [https://indico.desy.de/conferenceDisplay.py?confId=2327 Coherence-2010], International Workshop on Phase Retrieval and Coherent Scattering Coherence in Rostock, Germany; Ash is also invited to give talks at University College London, UK and Technical University Berlin, Germany. Congrats, Ash! * '''June 1, 2010''' Undergraduate Student Sam Stanwyck receives a prestigious DOE's Science Undergraduate Laboratory Internship [http://www.scied.science.doe.gov/scied/erulf/about.html SULI] at Lawrence Berkeley National Laboratory. Congrats to Sam! * '''March 15-19, 2010''' Ash Tripathi, Yeling Dai, Sebastian Dietze, Michael Folkerts and Sam Stanwyck give contributed talks at APS March meeting * '''March 1, 2010''' [http://physics.ucsd.edu/awards/index.php Oleg receives NSF CAREER Award] * '''November 3, 2009''' Michael Folkerts receives [http://physicalsciences.ucsd.edu/news/archives/archive_detail.php?clip_id=415 Dean's Excellence Award]. Congrats, Mike! * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} e4e01f13c6c0d1a564abd73db5d151d987779a1b 629 628 2009-06-10T02:10:16Z Oleg 2 /* GROUP NEWS: */ == Group News: == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 5bb4e96bde193f27a3c0bd36bcdd4d1a2d2a0723 628 627 2009-06-10T02:09:58Z Oleg 2 /* GROUP NEWS: */ == GROUP NEWS: == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 0eceaecd8817fb3262d5208e138da798f9f3d8e1 627 626 2009-06-10T02:09:37Z Oleg 2 == '''GROUP NEWS:''' == * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 7de58fa4daa98c9ab79e3c8633056d5467bbdc06 626 380 2009-06-10T02:08:47Z Oleg 2 * '''June 5, 2009:''' Open Postdoc position: [http://x-ray.ucsd.edu/mediawiki/index.php/Postdoc_Nanodiffraction X-ray Nanodiffraction and discovery of Novel Superconductors] * '''May 4, 2009:''' [[Oleg]] is named a [http://academicaffairs.ucsd.edu/faculty/awards/hellman/Hellman_recipients.htm Hellman Fellow] * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 1b920efd05d90ad1f11fab98ffabac3dbbb7516b 380 379 2009-04-26T16:14:13Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 6ad13e6ebff26668b324fce51be0ab49ba8528ea 379 378 2009-04-26T16:13:19Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == * Two of our publications are featured in {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br /> Arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' <br />Arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) <br /> Arising from Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br /> Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} d293edd07065fe6b2c6a65957b6f597011a728f9 378 377 2009-04-26T16:10:22Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == * Two of our publications are featured in {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) arising from Yejun Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising fromO. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br />Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 9d2f867112fccb8c194d4e1d7ea31e4c171655d0 377 376 2009-04-26T16:08:53Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == * Two of our publications are featured in {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | '''[http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf 2007 Advanced Photon Source Annual Science Report (PDF)]''' arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | Report [http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf 2007 Advanced Photon Source Annual Science Report (PDF)] arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a '''[http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" PDF)]'''(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |'''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] '''<br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007):<br /> In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |'''[http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article]''' <br /> Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007) |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |'''[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"]''', APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) arising from Yejun Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] | '''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf "A Gold and Silicon Get-Together" APS Science report 2006 (PDF)]'''<br /> Arising fromO. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |'''[http://www.anl.gov/Media_Center/News/2006/news060707.html "Liquid alloy shows solid-like crystal structure at surface", Argonne News]'''<br />Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) <br />In other coverage:<BR> * [http://www.fox-tek.com/online_support/pdfs/Materials_Performance_September_2006.pdf Materials Performance] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Plugin-Materials_Performance_September_2006.pdf PDF]) * [http://www.bnl.gov/bnlweb/pubaf/pr/PR_display.asp?prID=06-X17 Brookhaven National Lab highlight] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Liquid_Alloy_Shows_Solid-BNL.pdf PDF]) * [http://nano.anl.gov/news/highlights/2006_shpyrko.html Center for Nanoscale Materials Highlight] * [http://www.lightsources.org/cms/?pid=1001442 Lightsources.org] ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:PR-APS-06-8_Lightsources.pdf PDF]) |- |[[Image:ANews4.jpg‎ ‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-Anews4.pdf "Demixing of metallic liquids seen for 1st time" Argonne News (PDF)]'''<br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) |- |[[Image:APS_Science.JPG‎‎‎|thumb|left]] |'''[http://x-ray.ucsd.edu/mediawiki/images/6/67/Plugin-APS_Science_2005-2.pdf "Alloyed Fources Laid Bare" APS Science Report 2005 (PDF)]''' <br /> Arising from O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" Phys. Rev. Lett. 95, 106103 (2005) <br />In other coverage: * [http://liquids.deas.harvard.edu/oleg/Publicity/Argonne%20CNM%20Highlight_%20Mixed%20Metals%20not%20so%20Mixed%20Up%20at%20the%20Na...pdf Center for Nanoscale Materials, Argonne] * [http://www.newmaterials.com/news/10275.asp New Materials International] * [http://liquids.deas.harvard.edu/oleg/Publicity/ArgonneWEB_Mixed%20metals%20not%20so%20mixed%20up%20at%20the%20nano-level_Nov05_Landscape.pdf Argonne webpage cover] * [http://liquids.deas.harvard.edu/oleg/Publicity/DEAS_NEWS2.pdf Harvard Engineering and Applied Sciences]} 344166f7ea91dff0773126c766ad0b6ba902bb65 376 109 2009-04-26T15:50:15Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B] * '''September 2007:''' High-Pressure Chromium work is published in [http://link.aps.org/abstract/PRL/v99/e137201 PRL] * '''May 2007:''' Speckle study of antiferromagnetic domain wall dynamics published in [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature] * '''March 2007:''' Hall Effect & Microscopy of antiferromagnetic domains published in [http://link.aps.org/abstract/PRL/v98/e117206 PRL] == Research in the News: == * Two of our publications are featured in 2007 Advanced Photon Source Annual Science Report: {| class="wikitable"\n|-\n! ! |- | [[Image:APS_2008.1.jpg|thumb|left]] | Report ([http://oleg.ucsd.edu/ShpyrkoO_APS_Science_2007.pdf PDF]) arising from "Direct measurement of antiferromagnetic domain fluctuations" O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy Nature 447, 68 (2007) |- | [[Image:APS_2008.2.jpg|thumb|left]] | Report ([http://oleg.ucsd.edu/JaramilloR_APS_Science_2007-2.pdf PDF]) arising from "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai, Phys. Rev. Lett. 98, 117206 (2007) |- |[[Image:Zeptoliter.jpg‎|thumb|left]] |Our research on surface freezing in binary AuSi alloy is highlighted in a Physics Today article "Nanowire pipette dispenses zeptoliter drops of liquid metal" ([http://x-ray.ucsd.edu/mediawiki/images/e/ee/PT_Nanopipette.pdf PDF])(July 2007) |- |[[Image:070503_magnetism_cover-200.jpg‎|thumb|left]] |Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007):<br /> '''[http://www-news.uchicago.edu/releases/07/070502.magnetism.shtml "X-ray holograms reveal secret magnetism", University of Chicago Press Release] ''' In other coverage:<br /> * [http://www.anl.gov/Media_Center/News/2007/news070503.html Argonne News] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://www.ucl.ac.uk/media/library/Secret_Magentism University College London] * [http://www.eurekalert.org/pub_releases/2007-05/ucl-xhe050207.php Eurekalert] * [http://www.lcn.ucl.ac.uk/content/newsevents/recentnews/xrayholograms/ London Centre for Nanotechnology] * [http://skysong.eu/2007/06/a-new-understanding-of-antiferromagnetism/ Nanomaterials News] * [http://abc.net.au/science/news/stories/2007/1913388.htm" ABC News Australia] |- |[[Image:070502.magnetism-180.jpg‎|thumb|left]] |Arising from O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" Nature 447, 68 (2007):<br /> [http://physicsworld.com/cws/article/news/29900 "Speckles expose magnet's noisy secrets", PhysicsWeb Article] |- |[[Image:APS_SCIENCE_QuantumCriticality.jpg|thumb|left]] |[http://www.aps.anl.gov/Science/Highlights/Content/APS_SCIENCE_20071017.php "Different Roads Toward Quantum Criticality"], APS Press release ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Different_Roads_Toward_Quantum_Criticality.pdf PDF]) arising from Yejun Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, and T. F. Rosenbaum, "Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet" Phys. Rev. Lett. 99, 137201 (2007). DOI: 10.1103/PhysRevLett.99.137201 |- |[[Image:AuSi_Pub2.jpg‎ |thumb|left]] |Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) "A Gold and Silicon Get-Together" APS Science report 2006 [http://x-ray.ucsd.edu/mediawiki/images/4/40/Plugin-chemmatcars_science_313_77.pdf PDF] |- |[[Image:060707_eutectic-200.jpg‎‎ |thumb|left]] |Arising from O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" Science 313, 77 (2006) "Liquid alloy shows solid-like crystal structure at surface", [http://www.anl.gov/Media_Center/News/2006/news060707.html Argonne News] |- | | |- | | |- | | |- | |\n|} a69fedc44bbe42ab9afb6dee4fc613a2bbef3467 109 108 2009-04-05T16:37:46Z Oleg 2 * '''March 31, 2009:''' [http://oleg.ucsd.edu/people.htm Loic] defends his Masters Thesis ([http://x-ray.ucsd.edu/mediawiki/images/a/a9/Lo%C3%AFc_Jacot_Descombes_Masters_Thesis.pdf PDF])! * '''March 20, 2009:''' Two more papers published: [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000007075107000001&idtype=cvips&gifs=yes Metal-Insulator Transition in VO2], and [http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000079000011115417000001&idtype=cvips&gifs=yes Liquid Surface Structure of Bi and Sn] * '''January 2009:''' [http://oleg.ucsd.edu/people.htm Kevin Duggento, Andrew McLeod] join our group * '''November 2008:''' [http://oleg.ucsd.edu/people.htm Loic Jacot-Descombes, Sarah Garcia, Mike Folkerts] join our group * '''July 2008:''' [http://x-ray.ucsd.edu/wiki/ Group Wiki] added ([https://physics-apps.ucsd.edu/oleg/doku.php Older Dokuwiki]) * '''May 2008:''' Oleg receives [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * '''April 2008:''' UCSD Condensed Matter Physics [http://grad-schools.usnews.rankingsandreviews.com/grad/phy/condensed_matter ranked top 10] in U.S. * '''January 2008:''' [http://oleg.ucsd.edu/people.htm Dr. Jyoti Mohanty] joins our group as postdoctoral fellow * '''December 2007:''' Crystalline Phases of AuSi alloy paper published [http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. 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office, Mayer Hall 3210]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Oleg's_Office.pdf pdf]) to locate Mayer Hall, my office is 3210 (count down from 3) on the 3rd floo. Mayer Hall is located next to pedestrian overpass over Gilman Dr. See you there, Oleg. ab82fd46d9041279bad7c95bf07cbc8fe4ccd316 716 638 2009-09-17T21:59:27Z Oleg 2 /* How to get to my office (Mayer Hall Addition or MHA 3681): */ == How to get to my office (Mayer Hall 3210): == [[Image:Oleg's_Office.jpg|thumb|left|Map to my office, Mayer Hall 3210]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Oleg's_Office.pdf pdf]) to locate Mayer Hall, my office is 3210 (count down from 3) on the 3rd floo. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. 8d64fae0fa42a2ad313cc8f6d648890190b4d58b 638 2009-06-11T16:42:19Z Oleg 2 New page: == How to get to my office (Mayer Hall Addition or MHA 3681): == [[Image:MHA3681b.jpg|thumb|left|Map to my office, Mayer Hall Addition 3681]] * If you are new to the campus, orient your... == How to get to my office (Mayer Hall Addition or MHA 3681): == [[Image:MHA3681b.jpg|thumb|left|Map to my office, Mayer Hall Addition 3681]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:MHA3681.pdf pdf]) to locate Mayer Hall Addition, my office is on the 3rd floor facing Gilman Drive. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. 368567e598f564091b6ea1e79e47b218d256095d 0 4 636 635 2009-06-11T16:36:52Z Oleg 2 Redirecting to [[User:Oleg]] #REDIRECT [[User:Oleg]] 1cd207340abd8f4931eebff9bc32a4e93aee206f 635 632 2009-06-11T16:36:01Z Oleg 2 Replacing page with '[redirect http://x-ray.ucsd.edu/mediawiki/index.php/User:Oleg]' [redirect http://x-ray.ucsd.edu/mediawiki/index.php/User:Oleg] b58988cf89f36f89d8794c1054bfb0ed2ee9fe36 632 619 2009-06-11T16:32:51Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 4640c018256c76ef0ad6c17a592d06aaafd88a3a 619 609 2009-06-09T14:36:03Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' ba5d5f9f939ae42dd198bb0267b063174828d272 609 608 2009-06-08T05:32:50Z Oleg 2 == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 9b7cbeebd65b6dd0bb66757fcf81ee36b448b353 608 566 2009-06-07T16:04:17Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' e4ae073d1b48b505b2fe0f3f913940951c178e0f 566 565 2009-05-25T22:02:02Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' ce3714e6fc612650d0cb1b14edce944cd234e40f 565 564 2009-05-25T21:47:21Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * Division of Engineering and Applied Sciences Postdoctoral Fellow, Harvard University, 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship, Moscow, Russia 1994-1995 * Excimer Fellowship, Moscow Institute of Physics and Technology 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' c618d05c5b9d8967f40bdc65211f91d4d6d73653 564 495 2009-05-25T21:32:28Z Oleg 2 == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2009 [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow Award] * 2008 [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 * R. E. Marshak fellowship * Soros Foundation Fellowship, Moscow, Russia * Excimer Fellowship, Moscow Institute of Physics and Technology * Silver medal, International Physics Olympiad == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' e0512553416c4c066172de2d049eed65236b3500 495 494 2009-05-06T03:29:49Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2009 [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * 2008 [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 * R. E. Marshak fellowship * Soros Foundation Fellowship, Moscow, Russia * Excimer Fellowship, Moscow Institute of Physics and Technology * Silver medal, International Physics Olympiad == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 859c993184dbf040fd167a42b28d45ba2aa6f86b 494 493 2009-05-06T03:27:57Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2009 [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * 2008 [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 * Soros Foundation Fellowship, Moscow, Russia * Excimer Fellowship, Moscow Institute of Physics and Technology * Silver medal, International Physics Olympiad == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 08494330ea23ff3ea48dd50fe8d1a4003f704652 493 492 2009-05-06T03:26:34Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2009 [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * 2008 [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 * George Soros Fellowship, Moscow, Russia * Excimer Fellowship, Moscow Institute of Physics and Technology == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 348552880bc30bc7568c3b77dca7e44e2ee61ab0 492 480 2009-05-06T03:25:49Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2009 [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Fellow] * 2008 [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award] * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' fe127c9b9f6c74de8bfde373b9b69c2bf7c60043 480 479 2009-05-02T17:32:09Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' d61837d6994320d14cdc654ae96143b942201d94 479 478 2009-05-02T17:31:37Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|thumb|left|Prof. Oleg Shpyrko]]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 12ea5914bb972447ae0de374aaaaada41de88141 478 477 2009-05-02T17:26:11Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|link=http://oleg.ucsd.edu/Oleg_web.html|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 0d52b8c1802c3af22f9a8d5319d98b62d5eeb4ca 477 473 2009-05-02T17:25:11Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med.jpg|link=http://oleg.ucsd.edu/Oleg_web.html|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 402fc9719b30eecf93ed0a9203be5849751e091c 473 466 2009-05-02T17:06:38Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 10fb59e37449b7fdf12911e9531463fdc816b89b 466 465 2009-05-02T16:52:58Z Oleg 2 == '''Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' baafcb07ea4a5252a8d252430aa51555678010af 465 286 2009-05-02T16:46:58Z Oleg 2 /* Prof. Oleg Shpyrko, Contact Info: */ == '''Prof. Oleg Shpyrko''' == == '''Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] == '''Honors and Awards:''' == * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 4c614afe4d829af074c82ca2e693c92e09836893 286 285 2009-04-22T05:15:45Z Oleg 2 /* Prof. Oleg Shpyrko, Contact Info: */ == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] f79ccf132295c9c413112edd1bbc182afce22a87 285 190 2009-04-22T05:14:51Z Oleg 2 == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ([[Where is it]?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 28e4968c0a4f2f82f456fc90a2fdd67b090ab24a 190 31 2009-04-15T19:02:14Z Oleg 2 == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)]<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 1886750f586290febd72193491a5e9c6768d6127 31 30 2009-03-27T02:09:34Z Oleg 2 '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] Email: [[Image:Oleg_emsm.jpg]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)] Phone (Google Voice, preferred): 858-952-1248 Phone (Office): 858-534-3066 ---- Assistant Professor Department of Physics University of California San Diego Ph.D. 2004, Physics, Harvard University Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' 2008 Rosalind Franklin Young Investigator Award Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] c474b0cc302bfb45fec523ee54cb8a2c1b994579 30 12 2009-03-27T02:08:32Z Oleg 2 '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] Email: [[Image:Oleg_emsm.jpg]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)] Phone (Google Voice, preferred): 858-952-1248 Phone (Office): 858-534-3066 ---- Assistant Professor Department of Physics University of California San Diego Ph.D. 2004, Physics, Harvard University Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' 2008 Rosalind Franklin Young Investigator Award Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains" [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays" [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 59f591bb66f288acc36164ae77213fafc0de227e 12 11 2009-03-21T00:27:52Z Oleg 2 '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] Email: [[Image:email.gif]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)] Phone (Google Voice): 858-952-1248 Phone (Office): 858-534-3066 bb8cbf91458abb203057e22b1c239883df17a6b5 11 9 2009-03-21T00:26:15Z Oleg 2 '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg]] Email: [[Image:email.gif]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)] Phone (Google Voice): 858-952-1248 Phone (Office): 858-534-3066 5e185b97624f02f858e494ce7b5be0cf5ada48b9 9 7 2009-03-21T00:23:48Z Oleg 2 '''Prof. Oleg Shpyrko, Contact Info:''' Email: [[Image:email.gif]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm| (Where is it?)] Phone (Google Voice): 858-952-1248 Phone (Office): 858-534-3066 192701bb31387370b8c965b54c6e01d866e8989e 7 2009-03-21T00:20:19Z Oleg 2 New page: Email: [[Image:http://oleg.ucsd.edu/email.gif]] Office: Mayer Hall Addition 3681 (Where is it?) 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Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. HW #5 Solutions: [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] HW #6: Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] * May 23: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. HW#4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] |- | 9 | May 28 | Relativity. Lecture 17 [ http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] should be final lecture (no lecture on Thursday) | No Homework |- | 10 | June 5 | Review on Tuesday June 5, 11AM, in class. | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> b8e24a80c86723bc8df9b96a41ceedb3e9d72f2c 1605 1604 2013-06-01T22:47:14Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * June 1: Reminder that there will be a brief review on Tuesday, June 4th in class. Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. HW #5 Solutions: [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] HW #6: Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] * May 23: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. HW#4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] |- | 9 | May 28 | Relativity. Lecture 17 [ http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] should be final lecture (no lecture on Thursday) | No Homework |- | 10 | June 5 | Review on Tuesday June 5, 11AM, in class. | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 0f4dfa18ab0702cb187b2a22196e3b425217bc62 1604 1603 2013-06-01T22:46:00Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * June 1: Reminder that there will be a brief review on Tuesday, June 4th in class. Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. HW #5 Solutions: [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] HW #6: Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] * May 23: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. HW#4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] |- | 9 | May 28 | Relativity. Lecture 17 should be final lecture (no lecture on Thursday) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 0ec0c8643cff20e19e8abf61948018ac01cd9043 1603 1600 2013-06-01T22:43:58Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * May 23: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. HW#4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. Solutions to 11.9, 11.13: [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf Solutions to 12.6 and 12.7] |- | 9 | May 28 | Relativity. Lecture 17 should be final lecture (no lecture on Thursday) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> a46b5f026d73f01c05a7ca13da2b9373e71d8c21 1600 1599 2013-05-24T18:18:44Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * May 23: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. |- | 9 | May 28 | Relativity. Lecture 17 should be final lecture (no lecture on Thursday) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 878823e791f180800cc110c5db670da48525d455 1599 1597 2013-05-24T18:17:23Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |- | 8 | May 21, 23 | Relativity. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). : Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. |- | 9 | May 28 | Relativity. Lecture 17 should be final lecture (no lecture on Thursday) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> e8e07b7e980aacc9cb0c891295bc6e00f4f9a208 1597 1595 2013-05-17T03:30:45Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |- | 8 | May 21, 23 | Relativity. | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. |} <analytics uacct="UA-8527539-1" ></analytics> 0647b76cc1fe44644916ab6b0d1ce5972af76df8 1595 1594 2013-05-17T03:29:07Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |- | 8 | May 21, 23 | Relativity. | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. |} <analytics uacct="UA-8527539-1" ></analytics> 4de75db509924d6d94c9966eb57c2bec94742834 1594 1593 2013-05-17T03:28:00Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF])& Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. - | 7 | May 21, 23 | Relativity. | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 23. |} <analytics uacct="UA-8527539-1" ></analytics> 940bd2277f9a788ef8f2cc685a066550d4ac529d 1593 1591 2013-05-17T03:25:18Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * May 16: Special theory of relativity (12.1). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). * May 14: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> 7995fd1ea10e53eb733bee6ad639263142b1426e 1591 1590 2013-05-10T17:38:25Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20, 11.1. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> 97c343870732dfea1cbfcfa8951c0488e8ef0dae 1590 1589 2013-05-10T17:38:03Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * May 9: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]). Please note that in problem 2 due to some ambiguity in wording of the problem we will accept solutions that assume that transmitted wave is eventually adsorbed (therefore contributing to radiation pressure on the slab) as well as solution that assumes that the transmitted wave is not adsorbed and therefore does NOT contribute the pressure, as correct. Let me know if you are missing points for assuming one of those two scenarios and following through (correctly, within the initial assumptions) to the answer. * May 9: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 9: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> e81497869d2db9d06bb9ecf53ca6103e781ce06b 1589 1588 2013-05-10T17:33:40Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm). Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/b/b8/100C_Spring_2013_Midterm_Solutions.pdf PDF]) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> bb8151e850b4ca32c82b02cdd78179f3579e1281 1588 1587 2013-05-10T04:18:35Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. Solutions [http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF] |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20, 11.1. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> 77b7e2cf5ec8ac6e96f995ea68dc6568eaf31a9d 1587 1585 2013-05-10T04:12:52Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | No Homework Due this Week (due to Midterm) |- | 7 | May 14, 16 | | Homework #5: 10.13, 10.17, 10.20. Due May 16. |} <analytics uacct="UA-8527539-1" ></analytics> 34d542439fca1ce337d12e180574b65c20d66d62 1585 1584 2013-05-02T01:37:41Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 30: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions related to the fact that Maxwell equations are time-reversible, but our experiences are not (these are obviously not required for this course!) - you may read up on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. | No Homework Due this Week (due to Midterm) |} <analytics uacct="UA-8527539-1" ></analytics> 058f286043010779a756e5375418f160edfdd2ac 1584 1578 2013-05-02T01:34:59Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF])No Lecture on Thursday - please use the time to prepare for Midterm next week. There will be a discussion session on Friday. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- | 6 | May 7, 9 | May 7 is midterm, in class 1hr 20min. No homework assigned this week. May 9: Radiation (11) - Lecture 10. | No Homework Due this Week (due to Midterm) |} <analytics uacct="UA-8527539-1" ></analytics> 8381ff922511456aea23d1326658bc40f8a86f3a 1578 1577 2013-04-26T21:58:50Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). No discussion session this week - use the time to prepare for Midterm next week. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- | 6 | May 7 | May 7 is midterm. No homework assigned this week. | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 1268cbd194960e99c9b6e8b476cb2b350cf24fb1 1577 1576 2013-04-26T21:54:33Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). No discussion session this week - use the time to prepare for Midterm next week. | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- | 6 | May 7 is Midterm. No Homework. |- } <analytics uacct="UA-8527539-1" ></analytics> 72e4469a5656927247db2d3b1a11c245cfd097bb 1576 1575 2013-04-23T21:45:32Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 23: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 22: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 20: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides. * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- } <analytics uacct="UA-8527539-1" ></analytics> 29532a0c00cd24550be2b002e31af1f5c5bf5864 1575 1574 2013-04-23T21:43:22Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- | 5 | Apr 30, May 2 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 2nd. |- } <analytics uacct="UA-8527539-1" ></analytics> 5b63ea9532f7b25440517e3d6fd954d87466af4f 1574 1573 2013-04-23T21:38:05Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]). |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- } <analytics uacct="UA-8527539-1" ></analytics> 6edbc344c36482ee65d30ca21cadb869b353613a 1573 1572 2013-04-23T02:38:39Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 22: The Homework grades are posted here: [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdG1EdVlPQmNKc0lXRDYwckY3YXVGWFE&output=html GoogleDrive] * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- } <analytics uacct="UA-8527539-1" ></analytics> 4ccf8d77a77a1c55726f19d2d398fc3a58b213ff 1572 1571 2013-04-18T22:11:16Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- } <analytics uacct="UA-8527539-1" ></analytics> 09518889977066f83814a267166e2b8769babe38 1571 1570 2013-04-18T22:10:43Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. | | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 23, 25 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 25. |- } <analytics uacct="UA-8527539-1" ></analytics> d80e6ec8f9a167ab4a1dc9a71e0afd9bf0316f6c 1570 1569 2013-04-15T17:56:39Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 16 Lecture 5 (Tuesday) will be delivered by Prof. Sunil Sinha (I am out of town). I will be back for Thursday April 18 (Homework #2 is due on Thursday). * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |} <analytics uacct="UA-8527539-1" ></analytics> 07e27384ec446d8162345e1adf509b086f393648 1569 1568 2013-04-12T13:25:13Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 11: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. The physics explanation is that the surface currents "conspire" to screen out the EM fields from entering the bulk of the metal - the superposition of the incident fields and these currents produces all the new effects: out of phase E, B; rapidly decaying fields as a function of distance from the interface, and strongly reflecting surface, as a result. * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |} <analytics uacct="UA-8527539-1" ></analytics> 4114905dd17e61bc6be13c71db0b93994643d7f3 1568 1567 2013-04-12T13:21:33Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF].Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |} <analytics uacct="UA-8527539-1" ></analytics> 0953cdc7c4731d1690eeec2e64ff3bc68b2f5028 1567 1566 2013-04-11T17:33:40Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 18 before lecture. |} <analytics uacct="UA-8527539-1" ></analytics> 6cb8d87bfeed97fdec444f7ee703e9709db7941b 1566 1565 2013-04-11T03:50:00Z Oleg 2 /* COURSE SCHEDULE: */ == '''RECENT UPDATES:''' == * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 | April 16, 18 | Waveguides and Antenna (9.5) |HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |} <analytics uacct="UA-8527539-1" ></analytics> c7704930400b0e75449ed9460fd3849acb776c17 1565 1564 2013-04-11T03:47:56Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> e4fbcc824c86cdf87ea63346d8b22a24a49902e7 1564 1562 2013-04-11T03:45:51Z Oleg 2 /* RECENT UPDATES: */ == '''RECENT UPDATES:''' == * April 9: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> 7a57f85fc66827caf512d4d059c66bb86588b1d8 1562 1561 2013-04-04T20:00:52Z Oleg 2 /* COURSE SUMMARY: */ == '''RECENT UPDATES:''' == * April 4: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We started derving the properies of transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64) - we stopped half-way through derivation though, will pick up the calculation next Tuesday in class! April 2: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> 59ac7825d2b95216ca93833ec159af5e4a02666a 1561 1559 2013-04-04T19:59:14Z Oleg 2 /* COURSE SCHEDULE: */ == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> 8bf590bc6eb5151ed48146d26ece6df039414d89 1559 1558 2013-04-02T19:31:25Z Oleg 2 /* COURSE SUMMARY: */ == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday, 2PM-2:50PM, YORK 4080A '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00AM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays, 2-2:50PM, YORK 4080A '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' May 7th 11AM (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> 790d7c1f8a2539ebb2a7d21982c9e0979a885426 1558 1557 2013-04-02T19:24:25Z Oleg 2 /* COURSE SCHEDULE: */ == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00PM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' TBD (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. | (No homework during the first week) |- | 2 | April 9, 11 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due Thursday April 11, before lecture. |- | 3 |} <analytics uacct="UA-8527539-1" ></analytics> 34c4b4a863297d1c62c59f0374c39779241be259 1557 1556 2013-04-02T17:34:50Z Oleg 2 /* COURSE SCHEDULE: */ == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00PM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' TBD (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 2, 4 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- |} <analytics uacct="UA-8527539-1" ></analytics> 336ba6e5625f21f34ba20eb7d3c33380a81f7f82 1556 1555 2013-04-02T17:34:27Z Oleg 2 /* COURSE SUMMARY: */ == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00PM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' TBD (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- |} <analytics uacct="UA-8527539-1" ></analytics> cb46e19803f03e0de3c0b46a19f129d1a4ea1828 1555 1554 2013-04-02T17:33:15Z Oleg 2 == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2013, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 11:00PM-12:20PM, SOLIS 110 '''Discussion Session:''' Fridays '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' TBD (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- dfdbffded483ddf517516d754eb9ea7c3b587f7b 1554 1551 2013-04-02T17:32:02Z Oleg 2 Blanked the page da39a3ee5e6b4b0d3255bfef95601890afd80709 1551 2013-04-02T00:09:57Z Oleg 2 moved [[PHYS 100C]] to [[PHYS 100C v2012]] #REDIRECT [[PHYS 100C v2012]] 2a0c97c71a792664a60f4ffbc1955c551785b06e 0 3 760 673 2010-02-24T01:09:38Z Oleg 2 [[PHYS 100C]] moved to [[PHYS 100C 2009]] '''Welcome to Physics 100C webpage for Spring'2009 Quarter.''' ''' Spring'2009 Quarter is over. This webpage is archived/protected ''' == '''RECENT UPDATES:''' == [[Image:PHYS_100C_correlations_stats.jpg|thumb|250px|right|PHYS 100C: Plot showing correlation between class rank in various components (Homework, Midterm, Final Exam, Average Rank) and total score rank]] in reverse chronological order * June 11: Final Exam and Total Scores/Rankings are posted [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html here]. Letter grades will be posted later tonight. * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 4c79dda35c7764d4f5cacca5e33b822ba074a58c 673 672 2009-06-30T15:21:29Z Oleg 2 Protected "[[PHYS 100C]]" [edit=sysop:move=sysop] '''Welcome to Physics 100C webpage for Spring'2009 Quarter.''' ''' Spring'2009 Quarter is over. This webpage is archived/protected ''' == '''RECENT UPDATES:''' == [[Image:PHYS_100C_correlations_stats.jpg|thumb|250px|right|PHYS 100C: Plot showing correlation between class rank in various components (Homework, Midterm, Final Exam, Average Rank) and total score rank]] in reverse chronological order * June 11: Final Exam and Total Scores/Rankings are posted [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html here]. Letter grades will be posted later tonight. * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 4c79dda35c7764d4f5cacca5e33b822ba074a58c 672 644 2009-06-30T15:21:04Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2009 Quarter.''' ''' Spring'2009 Quarter is over. This webpage is archived/protected ''' == '''RECENT UPDATES:''' == [[Image:PHYS_100C_correlations_stats.jpg|thumb|250px|right|PHYS 100C: Plot showing correlation between class rank in various components (Homework, Midterm, Final Exam, Average Rank) and total score rank]] in reverse chronological order * June 11: Final Exam and Total Scores/Rankings are posted [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html here]. Letter grades will be posted later tonight. * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 4c79dda35c7764d4f5cacca5e33b822ba074a58c 644 642 2009-06-12T03:43:06Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == [[Image:PHYS_100C_correlations_stats.jpg|thumb|250px|right|PHYS 100C: Plot showing correlation between class rank in various components (Homework, Midterm, Final Exam, Average Rank) and total score rank]] in reverse chronological order * June 11: Final Exam and Total Scores/Rankings are posted [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html here]. Letter grades will be posted later tonight. * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> b7ed30b4c19681780593762fb3ccd0052de84fe6 642 641 2009-06-12T01:15:52Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 11: Final Exam and Total Scores/Rankings are posted [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html here]. Letter grades will be posted later tonight. * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 94cbb4975ec8a95054a708cf3a367db6bc2691d1 641 624 2009-06-11T21:04:30Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 11: Final exam and solution are posted ([http://x-ray.ucsd.edu/mediawiki/images/1/1e/PHYS_100C_Exam_Solutions.pdf PDF]). The problems were more real-world related than your typical Griffith problem sets, and the physicsy head-scratching, model-building component may have gotten most of you by surprise - there were really no "simply turn the math crank here" type problems. I expect post the exam grades and letter grading tonight. You are welcome to stop by and talk to me today or tomorrow (should be in my office) if you want to discuss the final. * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> d145f24b96dbde84d3828efcfa9f1427222e95a7 624 623 2009-06-09T23:25:59Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. Let me [mailto:oleg@physics.ucsd.edu know] if you find any errors. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 6012729c9f50b17d54b33b92aca50667e0024ff8 623 622 2009-06-09T23:24:51Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 9: Homeworks 1-7 and midterm grades [http://spreadsheets.google.com/pub?key=pIt_cbUGrEfUR1UOHTfB_Hg&output=html posted]. * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> d619d6ab50bb29f907563115dcb0f4ea82e42a79 622 621 2009-06-09T19:06:51Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 4802099783e0d1e131454722c8f8b694f06d5d2f 621 584 2009-06-09T19:06:05Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 9: Reminder that the final exam is 3 hrs, on Thursday, May 11, from 8AM to 11AM (make sure to set those alarm clocks) in the same classroom as usual (HSS 2154). Exam is open book - use the textbook, your notes, my note printouts, homeworks, your family raspberry jam recipee - whatever helps. See you bright and early on Thursday. * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 98f75105c4d9973da6fde9b85de49e31d3bac1a6 584 583 2009-06-05T01:32:31Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 62c0e84877cd25940576e19d4cea4d7b06107832 583 582 2009-06-05T01:31:44Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 4: HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]) * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]. |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 613ba88cf4faa66e8bf9ce41731e277be367facf 582 581 2009-06-05T01:31:17Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 4: HW#7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]. |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 5f960900a4cecfb05b904ac162e9f7b9b86de94e 581 579 2009-06-05T01:28:35Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 4: HW#7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> f020b8c2a91f279e4a81c4618b5bf0f1fe3a7a45 579 578 2009-06-04T21:43:13Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 4: there will be no discussion session tomorrow, Fri, June 5th. Instead we will hold an extra discussion hour on Tuesday, at 10AM, in my office Mayer Hall Addition (MHA) 3681, ext. 4-3066 (possibly we will end up using MHA 4681, 4th floor conference room next to north side stairwell of MHA). * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 4db7fe6e48d13615c04100733c2942a16c032d7b 578 577 2009-06-04T03:51:39Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> f8b1a66965e492995c7f0ce5a115b2ae373fbeae 577 576 2009-06-04T03:50:27Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]. May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]. | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 844e2b38238833aefcd4dc4f4cc8f0288ca4deec 576 575 2009-06-03T22:37:46Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 3a1760b38ba45112316bcdc13fd98222b1fa2939 575 573 2009-06-03T22:36:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 3: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * June 3: HW#6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] posted. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> e361a1019e1a4a53552f17acd1d48e179076eefc 573 572 2009-06-03T22:35:25Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 2: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. == '''OLDER UPDATES:''' == * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 21cacf610cc3ecba3b21ad9ed5c3478b485d7e2e 572 570 2009-06-03T22:34:55Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * June 2: Lecture 17 [http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF] introduced 2nd rank tensors for transforms of E, B. 4-vector of charge-current density. * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). == '''OLDER UPDATES:''' == * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 07ca52ad4e5965769ec53683e0396ff21208e012 570 563 2009-05-27T18:05:10Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 27: Lecture 16 [http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF] dealt with how E, B fields transform from one reference frame to another. Reminder that there will be no lecture on Thursday, May 28, and no discussion session on Friday, May 29, as I am out of town. * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). == '''OLDER UPDATES:''' == * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> f2c6712e3d4e64691438591536c0701bf33be4b8 563 562 2009-05-23T16:47:39Z Oleg 2 /* OLDER UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). == '''OLDER UPDATES:''' == * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 64c34ddee85e8bbfb44b8b694e319b314177587c 562 561 2009-05-23T16:47:19Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 3ed038db0ed1bebb1cae5be5533db702493a267c 561 560 2009-05-23T05:50:06Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 621a62cf139f5d2ccd9d7c2f393078b68da12bad 560 559 2009-05-23T05:48:15Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper]. The most important physics experiment is a failure! (negative result is often extremely important in science). Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (distant 2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be '''NO lecture''' on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 377f493592654a2cae4b7c8406f3f23f91a3197c 559 558 2009-05-23T05:46:08Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in 1801, here's the [http://adsabs.harvard.edu/full/1981AN....302..275T (modern) summary of this relatively trivial calculation], along with the [http://de.wikisource.org/wiki/Ueber_die_Ablenkung_eines_Lichtstrals_von_seiner_geradlinigen_Bewegung original by von Soldner (in German)]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> fd524210dfd618cd4f973c0b7cc2af2080121d21 558 557 2009-05-23T05:41:56Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Jeff asked - why was there a Newtonian value for deflection of light near a star (precisely 1/2 of the value predicted by Einstein's general relativity)? The short answer is: because within this model physicists considered light as composed of particles ("corpuscules") with mass travelling at speed of light - massless nature of photons wasn't discovered until much later. The deflection value was derived by [http://en.wikipedia.org/wiki/Johann_Georg_von_Soldner Von Soldner] in early 1800s, here's the summary of such [http://adsabs.harvard.edu/full/1981AN....302..275T calculation]. * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 9b8f61d708b1b0845c52ed7a3ce2110689a8293a 557 556 2009-05-23T05:20:35Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. Origin and derivation of E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c26db12d7d0a137681af3bfa1127b1ab7207d997 556 555 2009-05-23T05:20:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. (2nd place goes to Drew Carey). * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 20f88ff037d95ff74655f947447f372670bdd766 555 554 2009-05-23T05:19:05Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]) Summary: Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. E=mc^2. (Sect. 12.2) * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 42320e20a65e9172acf34c3405d065dc5eb36a82 554 552 2009-05-23T05:14:45Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Michelson-Morley experiment. "Proper" velocity. Relativistic momentum and energy. E=mc2 * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 85439c1e27a1464ec545de4fc841e024e802cddc 552 551 2009-05-23T04:36:33Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1365108a6639c32fc80936f13ac0011a7d2f8793 551 550 2009-05-23T04:35:59Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2). May 28 lecture canceled. | HW7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd, |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 95a4c0d3b239cc813465574a74986e4b1a3e5e31 550 549 2009-05-23T04:33:03Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1e7486956daa3430cc2426cc9d480d118412316a 549 548 2009-05-23T04:32:38Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a7341fc8abb98517a2b94eae85422e5dc9a7eef6 548 547 2009-05-23T04:32:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf Homework #7, due Tue June 2nd ] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1e7486956daa3430cc2426cc9d480d118412316a 547 545 2009-05-23T04:31:39Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: [Homework #7, due Tue June 2nd http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf] (this one has 7 - yes, seven (!) problems, but most of them are relatively easy - as those who show up to discussion session can confirm - and you have extra time and it's the last E&M homework you have to suffer through... until grad school). * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 946b49acfe3eb3c4a2146657f4be640fd88b1dd9 545 543 2009-05-22T23:07:20Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. Here's the [http://x-ray.ucsd.edu/mediawiki/images/f/f7/Michelson_Morley_1887.pdf Michelson-Morley experiment paper], the most important physics experiment was a failure. Michelson-Morley discovery was also the most exciting thing to come out of Cleveland, Ohio. By far. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 9f26eae17c555fe7bf3df006239dd07d5f31f99e 543 542 2009-05-22T21:56:05Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 22: To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. Those interested in history of science, there was a [http://tinyurl.com/qjqmxr recent Physics Today article about two 1919 eclipse expeditions that aimed to verify (or disprove) Einstein]. Those interested in LIGO - scaled up version of Michelson-Morley aimed to detect gravity waves, read more about it [http://www.ligo-la.caltech.edu/contents/overviewsci.htm here]. * May 22: Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * May 19: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * May 19: For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * May 19: I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 68769e3d62e7dec57348ee2230ea6f75e5f3ae00 542 541 2009-05-22T21:38:39Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * To Calvin and others - to get a feel for (or visualize) radiation arising from an accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. * Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a858b1d85e82c905d9192b89c98a5260f85caa00 541 540 2009-05-22T21:38:17Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * To Calvin and others - to get a feel for (or visualize) radiative fields from accelerating charge try these: [http://www.cco.caltech.edu/~phys1/java/phys1/MovingCharge/MovingCharge.html applet 1], [http://webphysics.davidson.edu/applets/sync/default.html applet 2]. * Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 869228caa5f64fceead68e437b9cf66968fd9573 540 539 2009-05-22T19:27:44Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * Since we are running ahead of schedule, there will be NO lecture on Thursday, May 28 and NO discussion session on Friday, May 29. There will be a lecture on Tuesday, May 26, as scheduled. Homework #7 will be due Tuesday, June 2. * Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8272df90a29763c1dfd6910a9e322765da77a076 539 538 2009-05-20T04:02:07Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | Special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 54b87ec14573a1b5395875abbc8b9db822a8f131 538 536 2009-05-20T04:00:24Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]), Secttion 12.1 * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 245f525b7ca4b16eb27452dfa342f63bf5c14696 536 535 2009-05-20T02:04:23Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May '''20''' from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 744a0f243b7ae62a22c076adac7072b8d8b52173 535 533 2009-05-20T01:41:58Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * For Scott and anyone else interested, this is the original, not previously released (director's cut) version of midterm exam ([http://x-ray.ucsd.edu/mediawiki/images/2/2e/PHYS_100C_MIDTERM_version1.pdf PDF]). * I will be holding an additional office hour on Wed., May 21 from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 09c8198dfe718135ac86e4eb3f918eeed6f4bfea 533 532 2009-05-19T22:43:18Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * I will be holding an additional office hour on Wed., May 21 from 1PM to 2PM in my office ([[Where is it]]?) * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 118b3bc17c538e07d9b040cebd8978ab35f28c96 532 531 2009-05-19T13:58:38Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW 5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 05e203c6f76116fdf8e9866da1607ff82d3dffc3 531 527 2009-05-19T13:56:34Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 19: HW #5 solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF]), Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]) are posted. * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 639647389418588d5d78a7c1bfcb3932ae13f7d0 527 526 2009-05-19T00:58:25Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 18: wiki is back (server reinstalled due to being hacked into) * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ad976c1dcfd8489ddf72b428ee36ad2bc36dc7bf 526 525 2009-05-14T12:24:59Z Oleg 2 /* OLDER UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3bfba1ed7bac2e8df744a3c7c3b3cc614e9fe4b1 525 524 2009-05-14T12:24:43Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f4316d1c3b15fff5404c7ef192118ab0d8cb1601 524 523 2009-05-14T12:21:15Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf PDF]), due Thursday, May 21 is posted. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6d5691ce78d09312a9ab316f387a76cd2fdae7f2 523 521 2009-05-14T12:18:03Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 14: HW6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf PDF]), due Thursday, May 21 is posted. * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7334416824eaac3b1cf3114f5d1d8906663b71c2 521 520 2009-05-14T02:30:14Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 14: There will be NO discussion session on Friday, May 15. * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2cef24d32ba7e8ad3ad0169a9174473ffbde61c8 520 519 2009-05-13T06:07:13Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 13: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> d544021357499b97b417de31ad183423c3674635 519 518 2009-05-13T00:05:41Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 13 (Tokyo time): You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 290bb6a91e88152bc440ae6e5ff14aad155b60a7 518 517 2009-05-13T00:02:37Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 12: You are allowed to use the textbook and hand-written notes (either yours or printouts of mine) during midterm. Good luck! * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 149954625e767e3efd3fd49733dd9cee700ad37e 517 516 2009-05-10T04:30:13Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:00AM (60 min), HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> e5adcf8c3ba0e631e49c950663f3ba46fe8cbb89 516 515 2009-05-10T00:56:10Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 9: Midterm will cover Chapters 9 and 10. Problems will be similar to homework. * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6d5bc4ee7a0ec332025c5343158a2880aeb350d4 515 514 2009-05-09T13:37:18Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6105d9db46878e66259c3b1943895edf27689e9b 514 509 2009-05-09T13:36:50Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 8: wiki server hosting PHYS 100C was not available in the evening of May 7th and for most of May 8th. Sorry for inconvenience. Backup depository of lecture notes and homeworks (in case something were to happen to server while I am away) is [http://oleg.ucsd.edu/PHYS_100C/index.html here]. * May 7: Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]) Notes: radiation reaction force and synchrotron radiation. * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 96b70910e9b1c19950c9ff357b0c9089aea8bd59 509 508 2009-05-07T18:34:11Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 7: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8c144c321729711fb30f82d6fd915667e0b921ff 508 507 2009-05-07T18:33:31Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 6: tomorrow's (Friday May 8th) '''discussion session''' will still be held as usual, at 11AM. We will discuss the troubling points of "flies on the garbage truck" analogy and solve some problems related to radiating charges - or address whatever other pre-midterm questions you may have. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0352d920fbaee56c62b6a2abdff22a233657c083 507 502 2009-05-07T18:31:16Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 6: tomorrow's (May 7th) '''discussion session''' will still be held as usual. * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 488d65d059fa709fc51f96ba979217b5a4d5e858 502 501 2009-05-06T04:54:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 5: I will be on leave throughout the week of May 11-15. Reminder that the midterm is going to be held on Thur., May 14 in class (8AM-9AM). Prof. (his Lordship) Sunil Sinha will substitute for me on May 12th. There will be no homework due the week of midterm (May 11-15), the next homework will be due on Thursday, May 21st in class. This week's homework is due Thur, May 7th, as previously scheduled. * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 44e81cbfba93eaa2ec0b461d419c3d4bb2ae095e 501 500 2009-05-06T04:48:44Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 4-8 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | No homework due this week (midterm). |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ed48e5f8f9ac12b6910d42c8c5be0b3394b157a1 500 498 2009-05-06T04:47:32Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 5: HW 4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] * May 5: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 464f40550300e4749192cc3aee97551cc3aad97d 498 458 2009-05-06T04:46:33Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * May 5th: Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) Summary: magnetic dipole radiation is not important (11.1.3), radiation from arbitrary "cloud" of charge (11.1.4). * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 06b42d8dd559bd8a510d2183d3a4353d082c9937 458 457 2009-05-01T05:27:10Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. == '''OLDER UPDATES:''' == * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 4507f8e2d7c66f4eca38ec993eaa66e2cc7c9ade 457 456 2009-05-01T05:26:34Z Oleg 2 /* OLDER UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3a17a4baecd14ee0214962f4e33ab5052663a225 456 455 2009-05-01T05:26:14Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wiechert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f94b3be1addad6683cf7ddbca25bea8e9149a24d 455 454 2009-05-01T05:25:49Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in '''final-final''' version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c86e2ef96c8ffa884c0fa578754b61b91e510c73 454 453 2009-05-01T05:15:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. Also note that there are now only four problems (problems 10.21 and 10.25 originally listed have been eliminated in finalized version). * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2349f0c88bdfe512f60069ef505a9d5d785af235 453 452 2009-05-01T05:14:34Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 085856d30360fe4c838513260264c1de0c300fca 452 450 2009-05-01T05:14:09Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> d8ce8f20e5bb0fb63bd3c7d7f252818de894742b 450 430 2009-05-01T04:19:56Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. '''Update:''' in Problem 10.17 you only need to derive the relationship shown in the problem, no need to derive full Eq. 10.63. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0c813f85dfde078be4d73c05801c99aab6aca1be 430 429 2009-05-01T00:20:05Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 14fe40c5f8416114c9f3115b2dc34e96496bb270 429 428 2009-04-30T22:44:40Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2dd1a519735097464d33536331f46324fc938263 428 426 2009-04-30T22:44:14Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ec55cd83758593be9b4b0ad74eed45462f523de4 426 425 2009-04-30T20:15:14Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3b8c4ce95e639379c2246f7238facf32be73a059 425 424 2009-04-30T19:09:50Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has cos²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f3ef09bede9a1b8bdcd6e9cabfd20382fe62a6a9 424 421 2009-04-30T19:09:25Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has cos²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11). HW #5: [http://x-ray.ucsd.edu/mediawiki/images/3/3b/PHYS100C_HW_4.pdf 10.13, 10.17, 10.20, 10.21, 10.25, 11.1] (finalized!). Due Thur, May 7, 8AM. | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 17b8abeca118273248321781d60c017cad6f5c5a 421 403 2009-04-30T18:49:50Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 30: Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has cos²(theta) angular anisotropy with respect to dipole orientation. * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a4a22ffa059c51e61f4f707f95c38bcb63c861cc 403 402 2009-04-29T04:52:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. I should also be in my office from 11AM to noon tomorrow (Wed. Apr. 29) for those who have conflict with PHYS 120A, but would like to talk to me. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 37d40696161bac7f00ef6363cab8ef119b8f1c34 402 389 2009-04-29T04:13:59Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 28: I will be holding additional office hour, Wednesday, April 29th, at 3PM [[Where_is_it|(Mayer Hall Addition 3681)]], for students who would like to discuss homework, lectures or complain about horrible Lienard-Wichert potentials. * April 28: Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]) posted. * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. == '''OLDER UPDATES:''' == * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f3b9930cd96449231879f01edf759febc72eebbf 389 388 2009-04-28T20:00:11Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 28: Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f0ea8ea4a669d2300c6e51897af08bf5198493e3 388 386 2009-04-28T19:59:12Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 28: Lecutre 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> d19a3c448befa50e903bb3d108f63ff434683734 386 341 2009-04-27T04:31:06Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 26: Midterm tentatively (re)scheduled for Thursday, '''May 14th''', in class (8AM-9AM). * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May <font color=red>'''14th'''</font> 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11), Midterm (May 14th) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 29b43500cef1b4367ba0b1e45e506d1cc64bfc5f 341 337 2009-04-24T14:43:48Z Oleg 2 '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 85620cb7c3938a8c2a64a0c121db8b9f8fd6b613 337 336 2009-04-24T02:29:43Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 12e155748cd013bb90f5e38c225965a1a15c47ec 336 335 2009-04-24T02:29:11Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10], Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 3d1e649f7a544a5f2237789a3b2d4394891b467d 335 334 2009-04-24T02:28:51Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: HW #4 posted: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10], Due Thur, Apr. 30, 8AM. * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10], Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 175f19ac2c423d4c7111dff6a0662f314756c755 334 332 2009-04-24T02:27:44Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10], Due Thur, Apr. 30, 8AM. |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 872cb4ff69f276aba2e14f8bdeab7f7f597b6668 332 331 2009-04-24T01:41:43Z Oleg 2 /* Welcome to Physics 100C webpage. */ '''Welcome to Physics 100C webpage.''' == '''RECENT UPDATES:''' == in reverse chronological order * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 39057c84702b0259696619fad5d01cc783d03874 331 282 2009-04-24T00:26:21Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == == '''RECENT UPDATES:''' == in reverse chronological order * April 23: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wichert potentials for moving charges. (10.3.1) * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. == '''OLDER UPDATES:''' == * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 4d1939c28327ecae94e20d60d6640992f3b49b4f 282 281 2009-04-22T04:50:00Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 21: For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 34d04b676dcaeddcc8434f52982228b33d776e1a 281 278 2009-04-22T04:31:21Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 21: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 21: [http://x-ray.ucsd.edu/mediawiki/images/f/fc/Homework-2_Solutions.pdf Homework #2 Solutions] posted. * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 5b47a0df56efc79bc503d2f9746add4537d07c31 278 211 2009-04-22T04:24:20Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/30-Apr 3 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 6-10 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 13-17 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 20-24 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Apr 27 - May 1 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 4-8 | Radiation (11) | TBA |- | 7 | May 11-15 | Radiation (11) | TBA |- | 8 | May 18-22 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 25-29 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 1-5 | Relativistic Electrodynamics (12.2-12.3) | TBA |} ecc97d4c6d9a7869cc12b886f0a11c3953ec4fad 211 207 2009-04-17T22:51:37Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 17: In Homework #3, Problem 9.28, the frequency 1.7E10 Hz is not the angular frequency, omega, but rather the inverse of period, "regular" frequency, usually described by greek letter nu. In Problem 9.30 you may assume that a > b (rectangular dimensions of waveguide). * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b3a72a541731a4913ad929b61beb340a2400710f 207 205 2009-04-17T02:51:44Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 16: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) summary: continued description of waveguides, applied to specific example of rectangular waveguides (9.5.2). Treatment of coaxial transmission line (9.5.3) is left to class. Started discussion of potentials and fields in electrodynamics, gauge transformations (10.1.1 and 10.1.2). * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted: 9.23, 9.24, 9.27, 9.28, 9.30. In Prob. 9.23 ignore the last question, answer only the first two - see [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf PDF]. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} ac746f69875c9982d57d928b7ddc959a497b3edd 205 204 2009-04-17T01:08:48Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3] posted. In Prob. 9.23 ignore the last question, answer only first two. 9.24, 9.27, 9.28, 9.30. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 4180041b0af91e75a3830840e82e4faa6aff809a 204 203 2009-04-17T01:08:16Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 16: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf Homework #3 posted. In Prob. 9.23 ignore the last question, answer only first two. 9.24, 9.27, 9.28, 9.30. * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 743d202c5a2107be7d970e108546f81f5dcf6c66 203 174 2009-04-17T01:04:54Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 31fc4c92360a13bcc187a61b070e25cb8a6d4458 174 173 2009-04-15T03:02:31Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA (Due Thur, Apr. 23 8AM) |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b0bce1d30da791be3519ea10d762b2fbb156441e 173 171 2009-04-14T22:13:12Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} cd5805a74cebe5eb20e6fc28d027a27b0da8ae9d 171 170 2009-04-14T22:05:10Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 2cb8568eebb2fc167f1dc16b6cfdc35b2338c0ba 170 168 2009-04-14T22:04:41Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 728bc3ead2972b53bd87b88c72d16fbae4f83fb3 168 167 2009-04-14T19:14:42Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate '''transient''' part due to some initial conditions (at short t as compared to the damping time constant) from solution describing long-term, '''steady-state''' behavior we are interested in (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 7a36a405e0d4243be9b1c9c33f3edea6fd969cb4 167 166 2009-04-14T19:02:12Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when driving force parameter D is not equal to 0. (The question/objections raised by Jeff and Andrew in class.) Separate transient part (at short t, after some initial conditions, compared to damping time constant) from solution describing long-term behavior (large t). Compare this long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} d4d9473979d5ca677ead5738f2861be9f68136fb 166 165 2009-04-14T19:00:23Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: Votes are in! We will keep having discussion session at original timeslot, 11-11:50 on Fridays. * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) by solving homogeneous form of this 2nd order differential equation (D=0 - damped, undriven/damped harmonic oscillator) first, and then finding general form of x(t) for when D is not equal to 0. (The question raised by Jeff in class.) Separate transient part (small t) from long-term behavior solution (for large t). Compare long-term behavior to the solution introduced in class. This extra credit for mathematically motivated students is due Thursday 8AM - I will post/discuss solution on Friday during our Discussion Session. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b9bbf1019692ce7754573d401800b9497cf8fdfa 165 164 2009-04-14T18:20:15Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) - the questions raised by Jeff in class. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). (Section 9.5.1) * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 34f84155f62be48566bffce4bb0cf5e3643b7870 164 163 2009-04-14T18:02:31Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see group velocity applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. '''Homework #2, extra credit problem:''' derive the most *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) - the questions raised by Jeff in class. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF])Summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves. We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 263ecc72e417faac9919ed76d10b2d6423577f78 163 161 2009-04-14T18:01:47Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 14: [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] are posted. * April 14: Group velocity animations - see group velocity applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 14: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. Homework #2, extra credit problem: solve for *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) - the questions raised by Jeff in class. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF])Summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves. We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final). [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf Homework #1 Solutions] |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 33ca9d938d505bfaed6c4ac1b04c68acf8ef8340 161 155 2009-04-14T17:02:44Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 15: for any questions/conflicts about homework grading first contact the grader (Houdong Hu, hhu@physics.ucsd.edu), then email/talk to me. Homework #2, extra credit problem: solve for *general* solution of equation Ax"+Bx'+Cx=D*cos(wt) - the questions raised by Jeff in class. * April 14: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF])Summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves. We also started deriving Maxwell equations for EM waves in waveguide (conducting tube). * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). | HW: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} a3f25293fdd06fa97abd50b4e9687dd2ed60694a 155 154 2009-04-14T04:33:13Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 13: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf Homework #2] Hints - in Prob. 9.16 you may assume that both reflected and transmitted waves are also s-polarized (we did Prob. 9.14 that deals with this proof during Discussion session on Friday). You may also want to do Prob. 9.19 before proceeding to 9.21 (silver is a very good conductor). * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 3dc7e0f4442402e2ccb74e3a6da2f893af5339d5 154 128 2009-04-14T04:25:14Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)] |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b68688b4385d7380c4a139bbdac21c30361fc85e 128 127 2009-04-11T20:04:32Z 71.137.1.173 0 /* Welcome to Physics 100C webpage. */ == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some answers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13, 9.16 (!), 9.19, 9.21 (finalized). |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} d2a3f9ff2be9f456e4771a93e327b1ee12e33e70 127 123 2009-04-11T00:26:59Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 10: Q&A Notes ([http://x-ray.ucsd.edu/mediawiki/images/6/69/PHYS_100C_Q%26A.pdf PDF]) (mostly some andwers to questions Jeff keeps asking me during the lectures - not required reading material by any means, for general education only). * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13, 9.16 (!), 9.19, 9.21 (finalized). |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b4ba09c4a45eba56b1004a513e33698f5b77f895 123 122 2009-04-09T20:49:17Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13, 9.16 (!), 9.19, 9.21 (finalized). |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 5d0f7e9c3aa2492e71002197a7d605bc3e816fad 122 121 2009-04-09T20:46:12Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdd PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdd PDF]). | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13, 9.16 (!), 9.19, 9.21 (finalized) |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 9bf3060360309f082f2095d1ca50e8b30183acdb 121 118 2009-04-09T20:38:44Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 9: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdd PDF]) summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) We also derived equations for transmitted and reflected waves for EM wave normally incident at an insulator-conductor interface. Perfect conductor has 100% reflection coefficient. (9.4.2). * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 6bd09895c8391047b1a3b2fee12de353f7e54bfc 118 117 2009-04-07T20:15:15Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b1058d69a5e9ddd3371e2233984ddf921a419a93 117 85 2009-04-07T19:25:54Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 7: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 2), See section 9.3.2. We then derived a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses], Brewster Angle Microscopy. Section 9.3.3. '''Reminder''' that HW#1 is due Thur April 9 at the beginning of the lecture, 8AM. * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} e9a87cc224d54364dfd636635ddb1b0b059e827a 85 80 2009-04-04T15:20:35Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 4: Feel free to add feedback, comments or suggestions regarding the PHYS 100C course in the [http://x-ray.ucsd.edu/mediawiki/index.php/Talk:PHYS_100C discussion section] (anonymously or not). Please do not edit this (main) page. * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 7a1ff4a22a4169e19f70bac090c849b9479031f2 80 79 2009-04-03T05:15:31Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Problems '''9.3, 9.5, 9.9 (sketch optional), 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 7af9f5451d73943bb4d5a9c2d5a8453aa0562e67 79 77 2009-04-03T05:07:22Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Problems '''9.3, 9.5, 9.9, 9.10, 9.15''' (note that 9.13 will be deferred for HW #2) will be due as HW #1 next Thursday, Apr. 9 before lecture. * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | HW #1: Problems 9.3, 9.5, 9.9 (sketch is optional), 9.10, 9.15 (final) |- | 3 | Waveguides and Antenna (9.5) | 9.13 + TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 4ebef2063b688b178bff3a417345f535fde90be7 77 76 2009-04-03T03:14:05Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 2: Problems 9.3, 9.5, 9.9, 9.10, 9.13 will be due as HW #1 next Thursday, Apr. 9 before lecture. Lecture notes will be posted later today. * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-11:50,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2110]. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} a4b85fb65e82291e0e9cea0b3b884d97128b0e5a 76 75 2009-04-03T03:12:07Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 2: Problems 9.3, 9.5, 9.9, 9.10, 9.13 will be due as HW #1 next Thursday, Apr. 9 before lecture. Lecture notes will be posted later today. * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 11d568352453d3cce0f4078551711086e3aa4f07 75 73 2009-04-03T03:05:49Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). * April 2: Problems 9.3, 9.5, 9.9, 9.10, 9.13 will be due as HW #1 next Thursday, Apr. 9 before lecture. Lecture notes will be posted later today. * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF] | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 70309dc1f1aaa1ef54a472db020641e361370954 73 72 2009-04-02T22:43:52Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Lecture 2 summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). Problems 9.3, 9.5, 9.9, 9.10, 9.13 will be due as HW #1 next Thursday, Apr. 9 before lecture. Lecture notes will be posted later today. * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session, and on Mondays 3PM-4PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Houdong Hu, hhu@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} d241fda3f626d418591d289952f33cadc30a6871 72 71 2009-04-02T20:21:31Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 2: Lecture 2 summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1), defined boundary conditions for EM wave traveling across media boundary and formulated the Incident, Transmitted and Reflected waves (9.3.2). Problems 9.3, 9.5, 9.9, 9.10, 9.13 will be due as HW #1 next Thursday, Apr. 9 before lecture. Lecture notes will be posted later today. * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 864f7950339928c81d797db082338b0124a3c879 71 70 2009-04-02T04:21:16Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * April 1: Lecture 1 (March 31) summary: we covered waves in 1D (9.1-9.2), discussed transverse/longitudinal waves (9.3), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} b0f2f29eec06b6620c47f1216ddd847c7f5471ca 70 37 2009-04-02T04:15:28Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, 9.13 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 0fb028460126d7c6869ffda4de2330746a9e8608 37 36 2009-03-31T18:50:45Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, student collaborations on homeworks is now '''allowed'''. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 31: Discussion session: Fridays 11:00-11:50, WLH 2110. * March 31: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel) * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} dc8c732f2b6f643eb346ad41d3eeb6cdf17998e2 36 35 2009-03-31T18:41:36Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''UPDATES:''' in reverse chronological order * March 31: '''Change in policy''' - during the discussion session we will be breaking into small groups and solving problems, including (sometimes) upcoming homework problems. Therefore, collaborations on homeworks is now allowed. Participation in discussion sessions is optional. * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. Discussion session: Fridays 11:00-11:50, WLH 2110 * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 646916bbfea90fab425abc2aea57fd67188682e1 35 33 2009-03-31T18:34:58Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == == '''UPDATES:''' == in reverse chronological order * March 31: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1 Notes posted]. * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} c22550b40d465892153483f8999dbcab8f6e50df 33 32 2009-03-31T18:19:54Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == == '''UPDATES:''' == in reverse chronological order * March 25: [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. ---- '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} e05f3f3143a25abf1ef124faedab150b5da6dad4 32 27 2009-03-30T04:51:09Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Combined with Discussion Session; For additional time see me after lectures or on demand. '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' Fridays 11-noon. '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 81ce54df74cde69920f592d7fe4c1f68e00f4850 27 23 2009-03-26T20:22:38Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' [http://x-ray.ucsd.edu/mediawiki/images/6/6c/Syllabus_100C.pdf Syllabus has been posted]. '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Tue, May 5th 8:00AM – 9:20AM, HSS 2154 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 8:00AM – 11:00AM. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog (More specifically, see page 69 of [http://tinyurl.com/c7p2eq PDF document]) The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | None (first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 50c9757877335585c6138c82773dce2ab9fdfa6e 23 22 2009-03-21T14:54:29Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | TBA |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} ed3beea4bb5ba26471c448d4667dc2348ebf99a3 22 20 2009-03-21T14:49:33Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) [[Image:Griffiths_Vectors.pdf]] | TBA |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} 81bfbbdc6ee7fd6567c64c1359489f129faa20e2 20 19 2009-03-21T14:46:10Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | TBA |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} a3828934f2f2c83c54fe740590d01627631789ac 19 18 2009-03-21T14:36:29Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == '''PHYS 100C, Electromagnetism, Spring 2009, UC San Diego''' '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. {| class="wikitable" border="1" |- ! Week # ! Topic ! Homework |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | TBA |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} aae11ac680d377dd6c675889ad8cbd27953c8a3f 18 17 2009-03-21T05:24:44Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. {| class="wikitable" border="1" |- ! Week # ! Topic ! Homework |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | TBA |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} bfe8387dbdc892153b829090e10fd1d13ee6b38e 17 16 2009-03-21T00:41:24Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. fb008d2e43a1b4726f9072995463acfa34c43b55 16 15 2009-03-21T00:40:58Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [[http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition]] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' [[http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]]. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. 1547ff3a99be3860f8df1d5c561d2da29965adcd 15 14 2009-03-21T00:39:24Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' [[http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall Addition]] (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. 2cfd88f5c24f804dbc9da5519ae7a7f5fa4edbfa 14 13 2009-03-21T00:38:21Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' Mayer Hall Addition (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths. '''Lectures:''' Tue, Th 8:00am-9:20am (Early, I hate it too!), [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.395845&R.y=0.486222&Fill=257&LKey=64 HSS 2154] '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. df845212e9ad26541585f7fddced856e3fcdc18a 13 6 2009-03-21T00:32:06Z Oleg 2 == '''Welcome to Physics 100C webpage.''' == ==PHYS 100C, Electromagnetism, Spring 2009, UC San Diego== '''Professor:''' '''[[Oleg Shpyrko]]''' '''Office:''' Mayer Hall Addition (MHA) 3681, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined ---- '''Text:''' Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths. '''Lectures:''' Tue, Th 8:00am-9:20am (trust me, I hate it too!), HSS 2154 '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. ae8453a5689c98a482ba2fe1ef1a371d0db3fa2d 6 5 2009-03-21T00:19:16Z Oleg 2 == Welcome to Physics 100C webpage. == '''Professor:''' [[Oleg Shpyrko]] '''Office:''' Mayer Hall Addition (MHA) 3681, ext. 4-3066 [[Office location]] '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined '''PHYSICS 100CL Electromagnetism''' '''Text:''' Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths. '''Lectures:''' Tue, Th 8:00am-9:20am (trust me, I hate it too!), HSS 2154 '''Discussion Session:''' TBA '''Homework:''' Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. '''Midterm:''' Date TBA. Open book exam. Bring your textbook only, and a bluebook. '''Final:''' Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. 988187fe321b213db6b3478bbd6e0250724d4b29 5 4 2009-03-21T00:18:28Z Oleg 2 /* Welcome to Physics 100C webpage. */ == Welcome to Physics 100C webpage. == '''Professor:''' [[Oleg Shpyrko]] '''Office:''' Mayer Hall Addition (MHA) 3681, ext. 4-3066 [[Office location]] '''Office Hours:''' To Be Announced '''TA (Grader):''' To Be Determined '''PHYSICS 100CL Electromagnetism''' '''Text:''' Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths. '''Lectures:''' Tue, Th 8:00am-9:20am (trust me, I hate it too!), HSS 2154 Discussion Session: TBA Homework: Assigned weekly, due Thursday, at the START of lecture. Will also be accepted at the following lecture, but with a 20% penalty. Midterm: Date TBA. Open book exam. Bring your textbook only, and a bluebook. Final: Open book exam. Bring your textbook only, and a bluebook. Grading: Homework=20%, Midterm =30%, Final=50%. ec52847078c7fc7a5cc1ca70469f5a66cea15eb5 4 2009-03-20T21:43:52Z Oleg 2 New page: == Welcome to Physics 100C webpage. == This is a test of mediawiki. == Welcome to Physics 100C webpage. == This is a test of mediawiki. 65ce96ab88a44c252b9d15e85dfb3c1d25f8ff95 0 252 821 820 2010-03-30T04:51:40Z Oleg 2 == PHYS 100C 2009 Lecture Notes == ''' - use as a "rough" preview of horrors to come*''' (*may be modified for 2010 version of the class!). * Week #1: Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) * Week #2: Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). * Week #3: Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). * Week #4: Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). * Week #5: Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). * Week #6: Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). * Week #7: Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. (No Notes), Midterm. * Week #8: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). * Week #9: Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). * Week #10: Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). <analytics uacct="UA-8527539-1" ></analytics> 1641c170d2941076bf05dcebc571eac8ec88ddbc 820 2010-03-30T04:48:27Z Oleg 2 New page: PHYS 100C 2009 Lecture Notes (*may be modified for 2010 class!). * Week #1: Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/... PHYS 100C 2009 Lecture Notes (*may be modified for 2010 class!). * Week #1: Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) * Week #2: Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). * Week #3: Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). * Week #4: Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). * Week #5: Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). * Week #6: Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). * Week #7: Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. (No Notes), Midterm. * Week #8: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). * Week #9: Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). <analytics uacct="UA-8527539-1" ></analytics> 58a977227931778220696551f50b012d365fa1b8 0 244 1383 951 2012-04-02T23:27:25Z Oleg 2 moved [[PHYS 100C]] to [[PHYS 100C Spring 2010]] '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 11: Final Exam Scores and Total Scores are posted here: [http://spreadsheets.google.com/pub?key=0Ar-_5hvA7vJedDhuWDZZQkg1WTJSUFRXNmZFWk5FVkE&hl=en&single=true&gid=0&output=html gDocs]. I will be available on Monday, June 14th, from 1PM to 3PM for final exam pick up and discussions in my office, MH 3210. * June 9: Final Exam Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/24/PHYS_100C_2010_Final_Exam_Solutions.pdf PDF]) are posted. * June 6: Reminder that final exam is TOMORROW, June 7th, from 8:00AM to 11:00AM in Peterson 103. * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> ba8a49de560d09bfc6a571ffd06a2e32ad660fd9 951 950 2010-06-12T03:27:43Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 11: Final Exam Scores and Total Scores are posted here: [http://spreadsheets.google.com/pub?key=0Ar-_5hvA7vJedDhuWDZZQkg1WTJSUFRXNmZFWk5FVkE&hl=en&single=true&gid=0&output=html gDocs]. I will be available on Monday, June 14th, from 1PM to 3PM for final exam pick up and discussions in my office, MH 3210. * June 9: Final Exam Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/24/PHYS_100C_2010_Final_Exam_Solutions.pdf PDF]) are posted. * June 6: Reminder that final exam is TOMORROW, June 7th, from 8:00AM to 11:00AM in Peterson 103. * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> ba8a49de560d09bfc6a571ffd06a2e32ad660fd9 950 949 2010-06-12T03:25:22Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 11: Final Exam Scores and Total Scores are posted here: [http://spreadsheets.google.com/pub?key=0Ar-_5hvA7vJedDhuWDZZQkg1WTJSUFRXNmZFWk5FVkE&hl=en&single=true&gid=0&output=html gDocs]. * June 9: Final Exam Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/24/PHYS_100C_2010_Final_Exam_Solutions.pdf PDF]) are posted. * June 6: Reminder that final exam is TOMORROW, June 7th, from 8:00AM to 11:00AM in Peterson 103. * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 50d3b2fb9695e5561e63e53eb760b9e7472b11b8 949 946 2010-06-10T01:07:18Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 9: Final Exam Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/24/PHYS_100C_2010_Final_Exam_Solutions.pdf PDF]) are posted. * June 6: Reminder that final exam is TOMORROW, June 7th, from 8:00AM to 11:00AM in Peterson 103. * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 3a14e660e25557bf50fd134dabcd956cebf0d688 946 945 2010-06-07T04:38:20Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 6: Reminder that final exam is TOMORROW, June 7th, from 8:00AM to 11:00AM in Peterson 103. * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 8aee74261e1f5f259e283cc04a1878a24a50a35d 945 944 2010-06-01T15:13:34Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: Wednesday, June 2nd, will be the last lecture for PHYS 100C. There will be no Lecture/Review Session on Friday, June 4th - please use this time to review past material and homeworks. A reminder that final exam is next Monday, June 7. * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 8e8e8bfeb099ef51539864972709a08d0d6ba213 944 943 2010-06-01T15:11:01Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 521cf56cf48fd60fd6c1e4ad20649aeeef296bc2 943 942 2010-06-01T15:09:07Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> b59bf4452710a4067fcbc0783f83785085b2fced 942 941 2010-06-01T15:07:53Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: Lecture Notes for week of May 24-28 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> e6c5ae6cee4e19af1ab1819725d3105e8f80fb61 941 937 2010-06-01T15:06:32Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: Lecture Notes for week of May 26-30 - Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 20d3f9a6297ed237532b6d969234257c9d09f5a9 937 936 2010-06-01T15:03:00Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 4aaf21f8a306cf59fdc28d7870037b39d01eea24 936 935 2010-06-01T14:59:56Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> e6f6ce7995f111e61380cc0a4e4bfafa0c3edbc0 935 930 2010-06-01T14:59:33Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * June 1: HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF], HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF], HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF], and HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] are posted. * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 06b502a78430b121d407661c5a12c06a49d07669 930 929 2010-05-28T18:54:22Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 28: Grades for HW #1-7 are [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html posted] * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 921cd5896a73523f8c6ec4813484b4bbd681c735 929 928 2010-05-27T00:17:27Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 25: HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b6c37d3e60c7b3f5b8edddec07cdfdd409d34b0e 928 926 2010-05-20T03:13:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 19: Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c757ce64fa8c3c6461742086583e79a3717282e5 926 924 2010-05-20T02:05:41Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 19: Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: '''NOTE:''' There will be '''NO''' discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me during Friday lecture. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a342fd98048f16a56f8decbc2454a0a9f98de7f8 924 923 2010-05-20T01:52:15Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 19: Homework #7 is Problems 12.6, 12.7 and 12.17, due on Wednesday, May 26 (instead of Monday), I will provide hints if needed during Monday lecture. * May 19: NOTE: There will be NO discussion session on Friday, May 21st, and a guest lecturer, Sunny Sinha, will substitute for me on Friday. * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 662c10b6d28eaeab7cdeb10cc56e47a6f618b93e 923 922 2010-05-17T14:44:22Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c95fdd66e913ba410dbbfa57ce8f3cb5f135bfa8 922 919 2010-05-17T14:34:08Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 17: Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) from May 12th and 14th. * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b4f56e1b203d2d216329b4d003eade2ed504e53f 919 918 2010-05-14T03:40:36Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. Purple doesn't seem to refract much at all at the second interface. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. Red seems to refract in the opposite direction (as if n<1 inside the prism). * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8d7e491f06edde014d513b52e69f817e502ef942 918 917 2010-05-14T03:38:34Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 59c05f5ccbc73db8b2f87b020062d0bde45c1ffe 917 916 2010-05-14T03:38:17Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 13: Side notes from class: What's wrong with refraction in Pink Floyd's [http://www.amazon.com/Dark-Side-Moon-Pink-Floyd/dp/B000002U82 "Dark Side of the Moon"] album cover art? 1. Purple, magneta and pink are not fundamental spectral colors, they are each a combination of several spectral colors. 2. Most of the refraction appears to occur at first interface: Colors that had the most refraction at the first interface (purple) have the least refraction at the second interface. It should be the opposite. 3. In fact, red/magenta color is incident at second interface at nearly 90 degrees and should have least amount of refraction. But none of this is nearly as bad as the [http://g-ecx.images-amazon.com/images/G/01/ciu/43/0e/3fe1225b9da0a5431691b010.L.jpg back cover of the album]. The colors are inverted - dispersion should make violet refract the most and red the least. The fan of colors should be diverging, not converging. * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a8854af2bc999f7d4d6e7266fdd406e330ad83d9 916 915 2010-05-13T00:41:57Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 72f7c37750c5765ad4b11452711924a2091ff542 915 913 2010-05-13T00:41:22Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 12: Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> bb110ffeef614c1d92450098ef9cb95f5f629e6e 913 912 2010-05-11T04:26:34Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 10: Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. Also see information about [http://en.wikipedia.org/wiki/Rainbow Rainbows], [http://en.wikipedia.org/wiki/Sunlight Solar Spectrum], [http://en.wikipedia.org/wiki/Color_vision Color Vision] and [http://en.wikipedia.org/wiki/Rayleigh_scattering Rayleigh Scattering]. * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 011d0eb3cddd1393e2ab1db8a6c0a66265e68ee3 912 909 2010-05-11T03:54:58Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 10: Lectures 17 (May 7) and 18 (May 10) * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 82811e4c9156e8c725a58351b90a0cbb08152ed9 909 908 2010-05-10T16:25:07Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 10: Midterm Grades are posted ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 21a2013f687a1bc19717c846c47e0136601dba73 908 906 2010-05-08T04:30:38Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 7: Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]) posted. Homework grades 1-4 ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html gDocs]) * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ff5d9ea1f3e5fcae2f76ad13a7a3ecbf4ac66f09 906 905 2010-05-05T00:07:41Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Midterm is tomorrow, May 5th, in-class, 10:00AM-10:50AM. Open book exam. Bring your textbook, notes, and a bluebook. You will also need a calculator. * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 207c5d8796561df43d05213981d267f9fb1f4dc7 905 902 2010-05-05T00:06:40Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1128b93715c0aba5ada8ab031683bc37a3664170 902 900 2010-05-04T19:03:44Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 86ad1d8f91d1f6cbab2fe4883e53ba05ec6da717 900 898 2010-05-04T19:00:04Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Lecture 16 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]) * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 073784fa5272005828a02856782aeff38a525379 898 897 2010-05-04T18:59:05Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 80e5c5f7635415a4f230fcb2090f507348837e7a 897 895 2010-05-04T18:39:51Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 4: Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 89c4c245e612726e47bddebb2c3a86e6288ab2f5 895 893 2010-05-04T01:26:34Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 3: Homework results (HW 1-3) posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #3 solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]). * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a7e9bf5e1820683e4df50f91677c3c0564a51cd3 893 892 2010-05-04T00:32:57Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * May 3: Homework results posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here] * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 980a19a5d452bc3ad6ed89f7322d15578ec7a9fc 892 891 2010-05-02T21:40:14Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 35c2858d83598d2302cef889b4614ebde6760980 891 890 2010-05-02T21:37:37Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6be304b201f84a800e461b1ed37a97c6a6bed8aa 890 889 2010-04-29T22:35:27Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 29: Tomorrow (Friday) we will have discussion session at 2PM instead of 3PM, same location WLH 2115. * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 810b5863e0d785f1249800575e69f1a4edbae22f 889 886 2010-04-29T02:18:45Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 28: Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 72a1e874e620d58d805f10e29713a24348d75b5c 886 885 2010-04-28T19:37:44Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The '''midterm''' will be moved to Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 5ccdcd157c07967625792827db663f83969c2193 885 884 2010-04-28T19:36:26Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The midterm will be moved to Wednesday, May 5th, 10AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Wed, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1b3539c1be457e37b456be98647d6675c437ba98 884 883 2010-04-28T19:36:05Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The midterm will be moved to Wednesday, May 5th, 10AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Wednesday, May 5th) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8bf133ea790cbc82b9b2f597f3b077f7999f2562 883 881 2010-04-28T19:35:44Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 28: Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, March 3rd. The midterm will be moved to Wednesday, May 5th, 10AM (in class) instead of original plan of Friday, May 7th. * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c5f405225c0c1565cc67e969f2eb1d1d1b90a22a 881 879 2010-04-27T04:39:16Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 26: Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Side note: as I briefly mentioned during the lecture today it is easy to get confused with too many loren(t)zes. Hendrik [http://en.wikipedia.org/wiki/Hendrik_Lorentz Lorentz] is of Lorentz force, Lorentz contraction and Lorentz transformation fame. Ludvig [http://en.wikipedia.org/wiki/Ludvig_Lorenz Lorenz] is of Lorenz gauge fame. Edward Norton [http://en.wikipedia.org/wiki/Edward_Norton_Lorenz Lorenz] is of chaos theory, strange attractor and "butterfly effect" fame. (the last one not to be confused with actor [http://en.wikipedia.org/wiki/Edward_Norton Edward Norton]). As best as I can tell, none of them are related. * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6937d3f8f5ed13be0e7b8b6b38878927638f3d94 879 877 2010-04-26T18:42:57Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 26: grades for HW #2 are now posted, along with average and median grade values: ([http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html googleDoc]) * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 65e40d1629de3cb9d0564b26bacf5013759f90fc 877 876 2010-04-26T03:26:44Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 9637f32766ce496879b9afce4e170d5b2f4e3152 876 874 2010-04-26T03:26:08Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 25: homework 2 solutions posted ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8795d08cbeab91ae1a74aa207d0444f325b661e1 874 873 2010-04-23T23:25:11Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/index.cfm?action=summary&doc=15/4/phwv15i4a44@pwa-xml&qt= Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 4c27938ed863beeaf62381e69339e30fd65b8d4b 873 872 2010-04-23T23:24:35Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.'''24''', 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1445c8456d72b789bedc3d821339b52624fca85a 872 871 2010-04-23T23:24:12Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 23: I wanted to give problem 9.24 in homework #3, but due to a typo it got listed as 9.25. You can do either one, in my opinion 9.24 is a little easier, and more interesting. * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.*24*, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 095351f1d7ac5a634d72637de26f8a4e5d10918a 871 870 2010-04-23T21:30:20Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.24, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a9236bbb3a049ec88766b09c49dcbe475bffe71f 870 869 2010-04-23T21:30:12Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.24, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.25, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 55f9f00a7523eee28cdf3fe56f7f906b102bf54f 869 868 2010-04-21T13:41:57Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.25, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.25, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1e71a76c2ce37f6c5dfc3bf042b6e1fb3c38de61 868 867 2010-04-21T13:40:54Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.25, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.25, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3866fd8c06d6b2f16f45bf17b73b8f0ab7131552 867 865 2010-04-21T13:36:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]), due April 26. Problems 9.19, 9.25, 9.27, 9.28, 9.30. * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f8398fd246272ff682cce895298cf7f96bf570d8 865 864 2010-04-20T02:18:06Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 5879884f3d6a37c4f42df5d91d5885bee56b7c39 864 862 2010-04-20T02:17:28Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0b80fdc40dac440d9ea8b3ee20a649bc99bdeab9 862 860 2010-04-20T01:52:07Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Homeworks #1 will be handed back during Friday Lecture. Homework scores are posted [http://spreadsheets.google.com/pub?key=t8nX6YBH5Y2RPTW6fEZNEVA&single=true&gid=0&output=html here]. * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6b97ca4deff706e1b1fac324bd138a104d122a21 860 858 2010-04-20T00:42:03Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Lectures 9-11 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2d992ae3de58c4701923e367916c91764abb05ce 858 856 2010-04-15T05:08:03Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 14: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). Additional material: Group velocity animations - see applets [http://publicliterature.org/tools/group_and_phase_velocity/ here] and [http://gregegan.customer.netspace.net.au/APPLETS/20/20.html here], and also [http://en.wikipedia.org/wiki/Group_velocity wikipedia page] with relevant references about slowing down light to bike/running velocities and "negative" speed of light. * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7d8b96392a80d8d0d3f2e92c4607980ea9f522d8 856 855 2010-04-14T05:49:40Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 13: Office Hours this week are moved to Wednesday, April 14th at 3PM. My office is [http://x-ray.ucsd.edu/mediawiki/index.php/Oleg%27s_Office MH 3210]. * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2ca688e46d510ef87da4c6a3a44711d7178cece1 855 854 2010-04-13T14:32:57Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]), Probs: 9.13, 9.14, 9.15, 9.16. Due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1197e0b9e53f8c12bf84ff4ae552c3939af0ed7d 854 853 2010-04-13T14:32:28Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]) is due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f45ad6955f751941d8092ee9c2e10617f4b8264f 853 851 2010-04-13T14:31:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 12: Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]) is due Monday, April 19th before lecture. * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 62ea5a35c1cab4b10bf214083396eb406b4d9d33 851 849 2010-04-13T14:27:37Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 12: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)] summary: We derived equations for EM waves in conducting media. The solutions for wavevector now have imaginary component, which means the wave amplitudes are exponentially decaying over "skin depth" near the surface. E and B are still mutually perpendicular, but are out of phase. (9.4.1) * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8cd03e18f1d31bdf208fbdc5ae800f25966cc583 849 848 2010-04-11T14:17:56Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Mon April 12 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 00b4d1cd0d9696a0f8305cb4d53886700007c09e 848 846 2010-04-11T14:14:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 9: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]) summary: We derived Fresnel Law (Reflection/Transmission coefficients) for a more general case of oblique incidence, p-polarized wave; Discussed Brewster angle and applications ([http://www.polarization.com/water/water.html polarized glasses] and [http://users.otenet.gr/~garof/Bam/ Brewster Angle Microscopy]). Section 9.3.3. '''Reminder''' that HW#1 is due Fri April 11 at the beginning of the lecture, 10AM. * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0bb081f5ec73747d65bd1670581ffda6fc25e858 846 845 2010-04-10T00:07:36Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 9: For those interested in history of science (not required for this course) - [http://physicsworldarchive.iop.org/pdf?site=pwa&bkdir=15/4&pdf=phwv15i4a44&pdfhash=CE2AC1D0D4DF1FD75F59B6A8E2CBEA77&doctime=Fri%2C%2009%20Apr%202010%2023%3A58%3A58%20GMT Who discovered Snell's Law?] * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 05b6782526fe6337fe7615ea90a716181bd7e9f8 845 844 2010-04-09T21:50:43Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1217abd5c4e7021c878c85c6a10d3bb953f85b9d 844 843 2010-04-09T21:50:06Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] (CHANGED!) '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 45226200c4965be24b093c637daa9190ea078160 843 842 2010-04-09T05:10:17Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Peterson 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2e0dc792067f5ff6003ca07c3f4f06224185d391 842 841 2010-04-08T02:43:50Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Petersen 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 426ab1929d8571cdaa43ed4cf8836e984b66b621 841 840 2010-04-08T02:43:03Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Petersen 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> da687a86e9442d37e32ca5371b424ef679b7be36 840 838 2010-04-08T00:05:14Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) summary: We derived equations for transmitted and reflected EM waves for a case of normal incidence (cont'd from Lecture 4), Section 9.3.2. We then derived a more general case of oblique incidence, derived three laws of relection/refraction from boundary condition alone. (9.3.3). * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Petersen 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7fe7ec03562b0da7a778950a33b720fbddfa239a 838 837 2010-04-08T00:01:10Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: '''Effective Friday, April 9 and for duration of the quarter, the lecture location for physics 100C has been changed to [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 Petersen 103] from the current WLH 2206. The days/time remain the same: MWF 10-10:50 A.M.''' * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 953d98f1bba53a58f1970099e2dab52cc3f1f1f0 837 836 2010-04-07T20:22:25Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 7: EFFECTIVE FRIDAY, APRIL 9 AND FOR THE DURATION OF SPRING QUARTER, THE LECTURE LOCATION FOR PHYSICS 100C HAS BEEN CHANGED TO [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2008&Cmnd=Mnfy&Pan=Once&View=Medium&Campus=LaJolla&Zoom=5&R.x=0.429008&R.y=0.443292&Fill=423&LKey=8228 PETERSON 103] FROM THE CURRENT WLH 2206. THE DAYS/TIME REMAIN THE SAME: MWF 10-10:50 A.M. * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 12ffe2ba6f1f6ad9216cfcdfed341a7a982ca176 836 834 2010-04-06T04:00:27Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 5: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]) summary: We started deriving equations for transmitted and reflected EM waves for a case of normal incidence (9.3.2). * April 5: Yesterday's 7.2 magnitude earthquake provides us with an example of transverse ([http://en.wikipedia.org/wiki/S-waves S-waves]) and longitudinal ([http://en.wikipedia.org/wiki/P-waves P-waves]) seismic waves. P-waves (P stands for primary) propagate faster than S-waves, a fact that was used to determine the structure of [http://en.wikipedia.org/wiki/Earth#Internal_structure Earth's interior]. During earthquakes we feel mostly [http://en.wikipedia.org/wiki/Love_wave Love waves] - surface waves which decay more slowly away from epicenter, and which move more slowly than P-waves or S-waves. Cats and dogs, however, are more sensitive and can pick up P- and S- "body" waves, warning us of the surfaces "Love waves" to come (my dog was pretty useless at this task yesterday, though). * April 2: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 580adacd130335d4568259877c3a0956506fc0bb 834 832 2010-04-04T02:48:39Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 2: Lecture 3: ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]), summary: we have derived energy density, energy flux, momentum density and radiation pressure of EM waves (9.2.3), propagation of EM waves in Linear Media (9.3.1). * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 31015d3e709975e83cf2378d92b64dd8255e5355 832 831 2010-04-02T23:29:22Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a9b6cf566cef0ad137740cc04686a04ec15601bf 831 829 2010-04-02T23:29:03Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * April 2: Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 191e3273ac30eac9743dff485a06189f5d59de52 829 828 2010-04-01T06:03:13Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 192228c7eb039545d71f47fa8c93791a03f01926 828 825 2010-04-01T06:02:46Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 31: Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]) * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3225e8d943e5d47b7133824e7e58ca5848a4255f 825 824 2010-03-30T05:13:42Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Why Homework Matters - 2009 PHYS 100C statistics showing [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg correlation between homework, midterm, final exam and total student rankings]. * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> a46ba1f83e78102454d844f022f9678aa3a598af 824 823 2010-03-30T04:58:41Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Why Homework Matters - [http://x-ray.ucsd.edu/mediawiki/images/7/7b/PHYS_100C_correlations_stats.jpg 2009 statistics showing correlation between homework, midterm, final exam and total rankings]. * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 1af1754a213166d6b149e87371804010fc13b1ae 823 822 2010-03-30T04:55:10Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, yuliyakuzn@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> adde8da623ee4bf0d4e216a84d2c14a5f3c2b49d 822 819 2010-03-30T04:54:30Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 29: Lecture Notes from 2009 version of PHYS 100C can be found [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here] - use for preview of upcoming material, actual notes for 2010 may change a bit. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 596194f1c46f0948565d78b7d4fc1d58e7349f21 819 818 2010-03-30T04:43:01Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b494536659dd64cb276022c2575f8066da16726e 818 817 2010-03-30T04:42:24Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Today's Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]) posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ac3b7c7c8e135fd904695d3a110d627f0af38cc0 817 814 2010-03-30T04:40:32Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 29: Today's Lecture 1 [http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF] posted. Please review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> bc3bccf9d0254280f457e3350ca27b75d44c62f8 814 813 2010-03-23T14:52:54Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 89519551860be760aa458152d2ba034557db34e7 813 812 2010-03-23T14:52:22Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26-30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-6/4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ccc1b1917397d399feb9b810e19db94e09daffca 812 811 2010-03-23T14:51:35Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). Midterm (Friday) | TBA |- | 7 | May 10-14 | Radiation (11) cont'd. | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> c198e6c67e0bde8b995b5de944a10ee4fb089594 811 810 2010-03-23T14:50:29Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> d49b467782016217a4a7cccbf1aab15a55734401 810 806 2010-03-23T14:49:50Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 23: [http://x-ray.ucsd.edu/mediawiki/images/0/00/Syllabus_100C_2010.pdf Syllabus] has been posted. * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?)<br /> '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2d9fa3e4948770e480418243fff84d338fe00e12 806 805 2010-03-22T19:00:10Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?)<br /> '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0f84ff329401a76e41323b74dce69674560a992a 805 804 2010-03-22T18:58:58Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Where is it?|Where is it]]'''?)<br /> '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b0cb2d84afbdad4dca6676dcde7c4b092ed270d4 804 803 2010-03-22T18:52:41Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206]. '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=874 WLH 2206] (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b5ba0bd498e24f16a093fcfdf1bca20085dec9d9 803 802 2010-03-22T18:51:40Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> dabd10ebf855d972b6ea6bdb01c6e969610d8610 802 801 2010-03-22T18:49:49Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 037348d50703a7f7655d2adea906a254d08c8865 801 800 2010-03-22T18:49:34Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Fri, May <font color=red>'''7th'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No homework (?) |} <analytics uacct="UA-8527539-1" ></analytics> ae92d897e49696eb415f7c98c8db242be660a21f 800 799 2010-03-22T18:45:35Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Mon, May <font color=red>'''5th'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-Apr 4 | Relativistic Electrodynamics (12.2-12.3). | No homework (?) |} <analytics uacct="UA-8527539-1" ></analytics> 71308d29c4b67c8ab02bd2457472eac551568508 799 798 2010-03-22T18:44:38Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Mon, May <font color=red>'''3rd'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-Apr 4 | Relativistic Electrodynamics (12.2-12.3). | No homework (?) |} <analytics uacct="UA-8527539-1" ></analytics> 6c94b5d73ca57d6b71395a14815e5895ac82a92f 798 797 2010-03-22T18:44:24Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Mon, May <font color=red>'''3rd'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | TBA |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). | TBA |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | TBA |- | 6 | May 3-7 | Radiation (11). | TBA |- | 7 | May 10-14 | Radiation (11) | TBA |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). | TBA |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). | TBA |- | 10 | May 31-Apr 4 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No homework (?) |} <analytics uacct="UA-8527539-1" ></analytics> 804797a38ae103fb2da5d1dbd979238492929b57 797 796 2010-03-22T18:41:46Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Mon, May <font color=red>'''3rd'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 3-7 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 10-14 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | May 31-Apr 4 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 65c50161def514c3b7557dcb3161d3760a15c991 796 764 2010-03-22T18:41:01Z Oleg 2 Welcome to Physics 100C webpage for Spring'2010 Quarter. '''Welcome to Physics 100C webpage for Spring'2009 Quarter.''' ''' Spring'2009 Quarter is over. This webpage is archived/protected ''' == '''RECENT UPDATES:''' == * March 22: Discussion session: Fridays 3:00PM-3:50PM, [http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. * March 22: [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=rss&action=history RSS] and [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&feed=atom&action=history Atom] feeds allowing you to subscribe to/monitor changes to this page are available from [http://x-ray.ucsd.edu/mediawiki/index.php?title=PHYS_100C&action=history this webpage] (links in lower left panel). Syllabus has been posted. ---- == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2010, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ([http://oleg.ucsd.edu/map.htm Where is it?]) '''Office Hours:''' Discussion Session and afterwards: Fridays, 3:00-4:30PM. For additional time see me after lectures or on demand. '''TA (Grader):''' Yuliya Kuznetsova, kuznetso@physics.ucsd.edu ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. '''Lectures:''' Mon, Wed, Fri, 10:00AM-10:50AM, WLH 2206 '''Discussion Session:''' Fridays 3-3:50PM,[http://maps.ucsd.edu/Viewer.htm?Map=&View=&Campus=LaJolla&Zoom=5&R.x=0.563339&R.y=0.427254&Fill=526&LKey=8744 WLH 2115]. '''Homework:''' Assigned weekly, due Mondays, at the START of lecture. Will also be accepted at the Wed lecture, but with a 20% penalty. '''Midterm:''' Mon, May <font color=red>'''3rd'''</font> 10:00AM – 10:50AM, WLH 2206 (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 7, 8:00AM – 11:00AM. Room TBD. Open book exam. Bring your textbook only, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) | No homework during the first week |- | 2 | Apr 5-9 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | [http://x-ray.ucsd.edu/mediawiki/images/d/d2/Homework_1.pdf HW #1: Problems 9.3, 9.5 (!), 9.9 (sketch is optional), 9.10, 9.15] (finalized). Due Thur, Apr. 9, 8AM (before lecture) [http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf HW #1 Solutions] |- | 3 | Apr 12-16 | Waveguides and Antenna (9.5). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | HW #2: [http://x-ray.ucsd.edu/mediawiki/images/7/77/PHYS_100C_Homework_-2.pdf 9.13, 9.16 (!), 9.19, 9.21 (finalized)], Due Thur, Apr. 16 8AM (before lecture) |- | 4 | Apr 19-23 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]). | HW #3: [http://x-ray.ucsd.edu/mediawiki/images/f/f8/Homework_-3.pdf 9.23 (ignore last question), 9.24, 9.27, 9.28, 9.30]. Due Thur, Apr. 23 8AM. Homework #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/a/a2/Homework_-3_Solutions.pdf PDF]). |- | 5 | Apr 26 - Apr 30 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]). Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]). | HW #4: [http://x-ray.ucsd.edu/mediawiki/images/e/ed/PHYS100C_HOMEWORK4.pdf 10.1, 10.3, 10.5, 10.7, 10.10] (finalized), Due Thur, Apr. 30, 8AM. HW #4 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF)] |- | 6 | May 3-7 | Radiation (11). Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | HW #5: [http://x-ray.ucsd.edu/mediawiki/images/e/e5/PHYS100C_HOMEWORK5.doc.pdf 10.13, 10.17, 10.20, 11.1] (finalized!). Due Thur, May 7, 8AM. HW #5 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF)]. |- | 7 | May 10-14 | Lecture 13: Special Guest Lecturer, Lord Sunil K. Sinha. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), (May 14th). | No homework due this week. Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). |- | 8 | May 17-21 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | HW #6 ([http://x-ray.ucsd.edu/mediawiki/images/b/be/Phys_100C_HW6.pdf 11.9, 11.10, 11.13, 11.16, 11.25]), due Thursday, May 21. HW #6 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF]). |- | 9 | May 24-28 | Special theory of relativity (12.1-12.2). Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]). May 28 lecture canceled. | HW #7 [http://x-ray.ucsd.edu/mediawiki/images/4/47/PHYS100C_HOMEWORK7.pdf X (see PDF), 12.6, 12.7, 12.10, 12.17, 12.29, 12.30] due Tue June 2nd. HW#7 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF]). |- | 10 | May 31-Apr 4 | Relativistic Electrodynamics (12.2-12.3). Lecture 17 ([http://x-ray.ucsd.edu/mediawiki/images/b/ba/PHYS_100C_Lecture_17_June_2.pdf PDF]). | No Homework (last homework - #7 - is due this week, Tue June 2nd) |} <analytics uacct="UA-8527539-1" ></analytics> 8305a329335c9581683d2ed2b16b262c64d54790 764 761 2010-02-24T01:10:07Z Oleg 2 Welcome to Physics 100C webpage for Spring'2010 Quarter. 5a888c00a302f08f498c3338a99799ff1451543d 761 2010-02-24T01:09:38Z Oleg 2 [[PHYS 100C]] moved to [[PHYS 100C 2009]] #REDIRECT [[PHYS 100C 2009]] cfcb1dd44cf9b795c93a87cf24ad1d91839cfdc4 0 366 1596 1550 2013-05-17T03:29:34Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * June 12: Final Exam Solutions are posted ([http://x-ray.ucsd.edu/mediawiki/images/4/40/100C_Final_Solutions.pdf PDF]). Final Exam Grades, Total numerical scores, Class Rank and Letter Grades are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Grader Leandra will be available tomorrow, Wed. June 13th, from 1PM to 3PM in her office MHA 3631 to hand out final exams, any unclaimed homeworks and to discuss any issues in grading. * June 7: Final Exam is Monday, June 11th 11:30, in the usual classroom. Policy change: you are allowed to use laptops and tablets for displaying notes and PDF of book(s). You also do not have to use blue books for the exam - any paper is fine but make sure to staple it together before submitting. * May 29: and we are back from power outage! Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) Next (and final) lecture is Tue, June 5th. Final is during finals week, at regularly scheduled time, June 11th, 11:30AM * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). (No Lecture 13 for good luck!) | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 608a14e510623d1d52f780ad1533e8165e013181 1550 1461 2013-04-02T00:09:57Z Oleg 2 moved [[PHYS 100C]] to [[PHYS 100C v2012]] '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * June 12: Final Exam Solutions are posted ([http://x-ray.ucsd.edu/mediawiki/images/4/40/100C_Final_Solutions.pdf PDF]). Final Exam Grades, Total numerical scores, Class Rank and Letter Grades are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Grader Leandra will be available tomorrow, Wed. June 13th, from 1PM to 3PM in her office MHA 3631 to hand out final exams, any unclaimed homeworks and to discuss any issues in grading. * June 7: Final Exam is Monday, June 11th 11:30, in the usual classroom. Policy change: you are allowed to use laptops and tablets for displaying notes and PDF of book(s). You also do not have to use blue books for the exam - any paper is fine but make sure to staple it together before submitting. * May 29: and we are back from power outage! Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) Next (and final) lecture is Tue, June 5th. Final is during finals week, at regularly scheduled time, June 11th, 11:30AM * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> e71bd4a5d51c1d3f2a88d19d9afc200c6bccd54b 1461 1458 2012-06-13T03:11:09Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * June 12: Final Exam Solutions are posted ([http://x-ray.ucsd.edu/mediawiki/images/4/40/100C_Final_Solutions.pdf PDF]). Final Exam Grades, Total numerical scores, Class Rank and Letter Grades are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Grader Leandra will be available tomorrow, Wed. June 13th, from 1PM to 3PM in her office MHA 3631 to hand out final exams, any unclaimed homeworks and to discuss any issues in grading. * June 7: Final Exam is Monday, June 11th 11:30, in the usual classroom. Policy change: you are allowed to use laptops and tablets for displaying notes and PDF of book(s). You also do not have to use blue books for the exam - any paper is fine but make sure to staple it together before submitting. * May 29: and we are back from power outage! Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) Next (and final) lecture is Tue, June 5th. Final is during finals week, at regularly scheduled time, June 11th, 11:30AM * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> e71bd4a5d51c1d3f2a88d19d9afc200c6bccd54b 1458 1455 2012-06-07T14:53:02Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * June 7: Final Exam is Monday, June 11th 11:30, in the usual classroom. Policy change: you are allowed to use laptops and tablets for displaying notes and PDF of book(s). You also do not have to use blue books for the exam - any paper is fine but make sure to staple it together before submitting. * May 29: and we are back from power outage! Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) Next (and final) lecture is Tue, June 5th. Final is during finals week, at regularly scheduled time, June 11th, 11:30AM * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 3a1809fe00fecf2eaef933dac172bfe5962d4135 1455 1447 2012-05-30T00:37:43Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 29: and we are back from power outage! Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) Next (and final) lecture is Tue, June 5th. Final is during finals week, at regularly scheduled time, June 11th, 11:30AM * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> ac1b8b7d7cd1a7de0a79e330e9344bb741694f4f 1447 1446 2012-05-25T21:58:14Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | Homework #7: 12.10, 12.17. 12.29, 12.30. Due Tuesday, June 5. (extra time by popular demand because of quantum exam on Thur.) |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | No Homework |} <analytics uacct="UA-8527539-1" ></analytics> 3c958f51473c3ad6abaadf55b1f5396f9353755b 1446 1443 2012-05-24T21:14:46Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 24: Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/9/95/PHYS_100C_Lecture_16_May_26.pdf PDF]) dealt with how to transform E, B fields from one frame of reference to another, and included a revelation that magnetic field is just a relativistic consequence of electrostatics. * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 77ff561e55b4cf95129e3bff335597f923494ba5 1443 1441 2012-05-20T15:55:54Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 20: Midterm Solutions Posted ([http://x-ray.ucsd.edu/mediawiki/images/7/7a/100C_Midterm_Solutions.pdf PDF]) * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 59f4cdb6daaeb25c75a1b774b7d86d7426c97d76 1441 1440 2012-05-19T03:52:35Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | Note: No Lecture on Tue, May 22. There will be a lecture on Thur, May 24th. The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7. Due May 24. |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> e12f7c78516b204cc27abaff1bb7f62b362d579b 1440 1439 2012-05-19T03:49:35Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 18: Reminder that the lecture on Tuesday, May 22 is cancelled. We will have a lecture on Thursday, May 24th, when homework #6 is also due (Homework #6: 11.9, 11.13, 12.6, 12.7). * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7 |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 08c578ae429610a3133474b62f45dc63e06e2e44 1439 1437 2012-05-19T03:48:45Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | Homework #6: 11.9, 11.13, 12.6, 12.7 |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 92bd90aa53675b093346c156e75c3aaa6cca3efa 1437 1436 2012-05-18T03:54:25Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 17: Special theory of relativity (12.1-12.2). Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/4/44/PHYS_100C_Lecture_14_May19.pdf PDF]). Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/a/a5/PHYS_100C_Lecture_15_May21.pdf PDF]). Midterm results are available through this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Links: [http://en.wikipedia.org/wiki/Ligo LIGO, the largest interferometer project ever built], in search of [http://en.wikipedia.org/wiki/Gravitational_wave gravitational waves]. Early reports of gravity wave discoveries in 1970ies were [http://physics.aps.org/story/v16/st19 flawed]. [http://en.wikipedia.org/wiki/Michelson%E2%80%93Morley_experiment Michelson-Morley experiment]. Einstein on Michelson-Morley: [http://www.thedailybeast.com/newsweek/2009/07/01/what-did-einstein-know-and-when-did-he-know-it.html What did he know and when did he know it?] * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 16bb63291d3c1df71123b88d315798537cd94ed1 1436 1435 2012-05-14T03:11:30Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20. Due May 17. |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> fb951e0bb0f2f79de3bdde6cc1357abe9b15b74b 1435 1434 2012-05-14T03:07:52Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 12: Homework #5: 10.13, 10.17, 10.20. Hints for 10.13: v is perpendicular to r. Hints for 10.17 - consider value of |r|, using the fact that |r|=sqrt(r*r), and differentiate it with respect to time. Hints for 10.20: r is perpendicular to v and parallel to a. * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20 |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6e46db3c132c79f9885d3cd444313a3a1c9fe795 1434 1432 2012-05-14T03:03:13Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | Homework #5: 10.13, 10.17, 10.20 |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 03ae6cf050659286fd381417cfe5165f516f69b3 1432 1431 2012-05-09T03:43:30Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th. Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]). Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]). | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 27e6e34d396a55ab825fa5591d61f15ee2d7840d 1431 1430 2012-05-09T03:38:21Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 8: Today we got through two sets of notes for Lecture 11 ([http://x-ray.ucsd.edu/mediawiki/images/7/7f/PHYS_100C_Lecture11_May_5.pdf PDF]) and Lecture 12 ([http://x-ray.ucsd.edu/mediawiki/images/0/04/PHYS_100C_Lecture_12_May_7.pdf PDF]), skipping some repetitive mathematical details and focusing on the physics instead. Reminder that the midterm is this Thursday, May 10th in place of class, it is open book (notes and textbook allowed, electronic version of notes/book on laptops/tablets is Ok too).The midterm will be on Chapter 9 material. * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 5992e5b42a1996f75f9396a2327f005f1c4ea678 1430 1429 2012-05-07T12:53:30Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | No Homework (midterm) |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 8e2de2312a5306ede52cf1a3e37fd8ab6ec5c076 1429 1428 2012-05-07T12:53:04Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 6: there will be no homework due this week. Next homework will be due Thur, May 17th. * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7353dd9153d2fa4686f9e7bc0392449d16ec2d15 1428 1427 2012-05-04T13:10:32Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ff8a71ef39b43bbf3c7ec8a1666d2c59aafacf3b 1427 1426 2012-05-04T13:09:12Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Problem similar to homeworks. Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 5f751ae4c4194556c76fc1423889b55427cb1147 1426 1425 2012-05-04T13:07:27Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 4: midterm will cover chapters 9 and 10 or roughly the first 4 weeks (lectures 1 thru 8). Mock midterm from 2009 is here: Midterm ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_MIDTERM.pdf PDF]), Midterm solutions ([http://x-ray.ucsd.edu/mediawiki/images/1/18/PHYS_100C_Midterm_Solutions.pdf PDF]). * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 71b1c9c407a3a570313207d2713085b732297a13 1425 1424 2012-05-03T15:59:54Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3). Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> eea772af29cf6891015e5262ee54b370f56c8a62 1424 1423 2012-05-03T15:54:31Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 1-3: NOTE - there will be '''NO Discussion session on Friday, May 4th'''. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions, [http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF] |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2eeaef7e63517c8693c375ba61e5083af1fabc5c 1423 1422 2012-05-03T15:53:16Z Oleg 2 /* NOTE - there will be NO Discussion session on Friday, May 4th. Next Thursday, May10th is Midterm exam. */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 1-3: NOTE - there will be NO Discussion session on Friday, May 4th. Next Thursday, May10th is Midterm exam. Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions, [http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF] |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 15319845560ad0a502525796fc40f2588fadd8cf 1422 1421 2012-05-03T15:52:12Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * May 1-3: == NOTE - there will be NO Discussion session on Friday, May 4th. Next Thursday, May10th is Midterm exam. == Lecture 9 ([http://x-ray.ucsd.edu/mediawiki/images/f/f0/PHYS_100C_Lecture9_Apr27.pdf PDF]) Summary: Lienard-Wiechert potentials for moving charge, expanded. Velocity and acceleration contributions to E derived. HW #3 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF]) posted. Lecture 10 ([http://x-ray.ucsd.edu/mediawiki/images/c/c0/PHYS_100C_Lecture10_Apr30.pdf PDF]) Summary: we derived the radiated E, B fields for oscillating dipole, using retarded potential formalism (11.1.1, 11.1.2 in the textbook). Result is spherical EM wave (transverse), intensity ~ fourth power of frequency (Rayleigh scattering and the reason for why the sky is blue), decays as inverse square of distance, has sin²(theta) angular anisotropy with respect to dipole orientation. * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions, [http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF] |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ee09cfc4751b7cc797fad166014be0898f51eff9 1421 1420 2012-05-03T15:48:17Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. HW #3 Solutions, [http://x-ray.ucsd.edu/mediawiki/images/2/22/Homework3_Solutions.pdf PDF] |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 43913398ea627a834ea882a0469584e4f1a89d72 1420 1419 2012-04-27T18:48:24Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]), Lecture 6 [http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f74d92b41b8dfbb4cd95d04d9683477c0d4228ec 1419 1418 2012-04-27T18:47:42Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) | HW #2: 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. HW #2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) and Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | Homework #4: 10.1, 10.3, 10.5, 10.7, 10.10. Due Thursday, May 3rd. |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 9bf4e7ba1af59e9fbb0e030329b7f02374d7c4e1 1418 1415 2012-04-27T18:41:12Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 27: Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/e/e9/PHYS_100C_Lecture_8_April_23.pdf PDF]) Summary: derived Jefimenko Eqs (fields from retarded potentials) 10.2.2. Derived general expression for Lienard-Wiechert potentials for moving charges. (10.3.1). * For those interested in deep discussions (obviously not required for this course!) on nature and direction of arrow of time see [http://blogs.discovermagazine.com/cosmicvariance/2007/12/03/arrow-of-time-faq/ here], [http://blogs.discovermagazine.com/cosmicvariance/2008/05/21/the-arrow-of-time-in-scientific-american/ here], [http://en.wikipedia.org/wiki/Arrow_of_time here], or [http://seedmagazine.com/content/article/time_before_time/ here], or google [http://www.nytimes.com/2008/01/15/science/15brain.html "Boltzmann's Brain"], "Arrow of time" or [http://en.wikipedia.org/wiki/Gibbs_paradox "Gibbs paradox"]. * April 25: Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/5/56/PHYS_100C_Lecture_7_April_21.pdf PDF]) Summary: we introduced gauge transformations (10.1.2), Coulomb and Lorentz gauges, and Maxwell equations in these gauges (10.1.3). Introduced "retarded" potentials in Lorentz gauge and demonstrated that they are a solution to Maxwell equations for potential V(r,t) (10.2.1). * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> f07823a8bc6475010fb1aac7043e3e039c061c59 1415 1414 2012-04-23T20:35:19Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 23: Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]) covered waveguides and beginning of gauge formalism. * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0812fd50b1fd2b60e28fe74a768051690d6b6897 1414 1413 2012-04-23T20:33:55Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) and Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/4/40/PHYS_100C_Lecture6_Apr16.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. Homework #1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/8/86/Homework_1_Solutions.pdf PDF]) |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 88b65ae08b662c3431b6e3012d5383e52f244772 1413 1412 2012-04-19T18:59:46Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3: Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Thursday, April 26. |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 2b17d0c0c3593508276adaf6b3163e42bc9e9333 1412 1411 2012-04-19T18:57:27Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 19: Group vs. phase velocity [http://en.wikipedia.org/wiki/Group_velocity animation]. * April 17: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> fc1ddd39f121721c8f546ce8117c9b81eba89bc7 1411 1410 2012-04-19T13:08:06Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 15: Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/e/e2/PHYS_100C_Lecture_5_April_14.pdf PDF]) summary: we considered a simple mass-on-a-spring model for electron driven by electromagnetic wave to calculate dependence of index of refraction and attenuation as a function of frequency, leading to dispersion (rainbows etc.) We started deriving propagation of EM waves in a hollow metallic waveguide. * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 413b215adf7c8e3ad99ed4a092e80b1057f36ee0 1410 1409 2012-04-17T15:21:18Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == * April 15: The homework grades can be seen in this [https://docs.google.com/spreadsheet/pub?key=0Arh1NjtVUDlPdDZiaU1RTElpdWdGR1dmX1VLTDZhVVE&output=html google doc]. Find your grades by the last 3 digits (sometimes 2 - if starts with 0, and sometimes 4 digits if degeneracy arises) of your PID. * April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. * April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. * April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 719363ec0b84ae4ffe643393ba4dbb00e886ffc9 1409 1408 2012-04-14T22:18:18Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 6c3b27a6b2c7fe439679ec36b01f6bcd58dd6571 1408 1407 2012-04-14T22:18:01Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 14: Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]) Summary (with a tilda): we considered E&M waves propagating in conducting materials. Wavevector k becomes complex, with imaginary part of k representing exponential attenuation of the wave (skin depth introduced). E&M are still transverse but no longer in phase. Re-deriving the boundary conditions (Lecture 2/3 with complex k) get 100% reflection - explains why metal objects/mirrors are shiny. April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> bb9381e37da16ecee20aa5db9fbd6052e2fdb226 1407 1406 2012-04-14T22:15:20Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/f/f9/PHYS_100C_Lecture_4_April_9.pdf PDF]). | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 82d20a12e3329e0339bad86b8fc6347bb9c5cb8f 1406 1405 2012-04-14T22:14:13Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21, Due Thur, Apr. 19 before lecture. |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> e358df2d677574d9825854023587dddcdb9cb379 1405 1404 2012-04-14T22:13:39Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | 9.13, 9.14, 9.15, 9.16, 9.21 |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> b18d5871c24e35bab1f316438f4e1501f434c7a3 1404 1403 2012-04-11T21:55:58Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 10: Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]) summary: we considered boundary conditions for a plane EM wave incident on an interface at arbitrary incident angle. We have derived three laws of reflection/refraction and derived Fresnel Law for [http://en.wikipedia.org/wiki/Polarization_(waves)#S_and_P_Polarization p-wave]. (p stands for parallel, s stands for senkrecht, German word for "perpendicular" - to the plane of incidence). We have considered [http://en.wikipedia.org/wiki/Brewster_angle Brewster angle physics] which included [http://en.wikipedia.org/wiki/Polarized_sunglasses polarized sunglasses] and [http://www.ksvnima.com/brewster-angle-microscopy Brewster Angle Microscopy]. April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 521640bf271be537bfa2714b95294a72bc84315f 1403 1402 2012-04-11T21:47:57Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 3 [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_Lecture_3_April_7.pdf PDF]. | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> cd55451deffd60b929560c1abeebce5f4035a9af 1402 1401 2012-04-06T14:43:09Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9 (do not have to do the sketch part), 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ef23d948e3f33ab5c306487518447070be01eb2b 1401 1400 2012-04-05T21:31:31Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 5: Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf PDF]) summary: we considered energy and pressure carried by radiation / EM wave. We have looked at propagation of waves in media; We derived transmitted and reflected wave equations for a plane EM wave normal-incident at the boundary between two media (using boundary conditions from Eq. 7.64). April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 878ef2b292f9212513de2d99418143a4dd07dfb5 1400 1399 2012-04-05T21:29:20Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum and in Matter. Reflection/Transmission coefficients at normal incidence. (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1]. [http://x-ray.ucsd.edu/mediawiki/images/4/4b/Lecture_2_Apr2.pdf Lecture 2]. Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> ce906e831dbf0b948ad660613580e7fbf7d38792 1399 1398 2012-04-03T21:52:43Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work: <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 0f170769808b354ba7a561fd19b7736a545865af 1398 1397 2012-04-03T21:52:32Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction:Of Maxwell's work:<ref> {{cite journal |author=Albert Einstein |year=1940 |title=Considerations Concerning the Fundaments of Theoretical Physics |journal=[[Science (journal)|Science]] |volume=91 |issue=2369 |pages=487–492 |doi=10.1126/science.91.2369.487 |bibcode = 1940Sci....91..487E }}</ref> <blockquote>"Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers."</blockquote> Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887, who was only 4 years old in 1861, when Maxwell first postulated that light is Electromagnetic Wave. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7a9685aac951cf6cf53ea0408305eab6eed9b644 1397 1396 2012-04-03T21:48:18Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). * Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. * Historic Perspective (not required, but could be of interest for those of you who like the history of science): the fact that light is E&M wave was *almost* derived by [http://en.wikipedia.org/wiki/Maxwell's_equations#Relation_between_electricity.2C_magnetism.2C_and_the_speed_of_light Wilhelm Eduard Weber and Rudolf Kohlrausch] in 1856, and speed of light was measured by Fizeau in 1848 and Foucault in 1850. Maxwell [http://en.wikipedia.org/wiki/On_Physical_Lines_of_Force made the connection in 1861]. Einstein wrote about this prediction: "Imagine [Maxwell's] feelings when the differential equations he had formulated proved to him that electromagnetic fields spread in the form of polarised waves, and at the speed of light! To few men in the world has such an experience been vouchsafed... it took physicists some decades to grasp the full significance of Maxwell's discovery, so bold was the leap that his genius forced upon the conceptions of his fellow-workers." Maxwell's conjecture was proven by [http://en.wikipedia.org/wiki/Heinrich_Hertz Hertz] in 1887. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 3b67c208162620bcc74fea099c714e9e84662241 1396 1395 2012-04-03T21:40:21Z Oleg 2 /* COURSE SUMMARY: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session on Friday. '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 202d65a59b21ab9f38b0405c3b1e26eee02c5159 1395 1394 2012-04-03T21:39:57Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]) summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 805216735cac0c00619a51487c20de5c35764a7f 1394 1393 2012-04-03T21:39:28Z Oleg 2 /* RECENT UPDATES: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == April 3: Lecture 1 [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF] summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2). Note that in class I will be using my own lecture notes from 2009, which are made available [http://x-ray.ucsd.edu/mediawiki/index.php/PHYS_100C_2009_Lecture_Notes here]. This will ruin the element of surprise but will allow you to follow along and correct any mistakes you may find. == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 14970e53829c2096661434e0945bc025a6b1d5a6 1393 1391 2012-04-03T21:36:09Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Lecture Notes: [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf Lecture 1] Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 7b55617643e547ef4d8e76134001be3db40c45a2 1391 1390 2012-04-03T00:04:09Z Oleg 2 /* COURSE SCHEDULE: */ '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) Midterm, May 10th | TBA |- | 7 | May 15, 17 | Radiation (11) | TBA |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> 63032454635158caa98422e75bbab950d8ef9a28 1390 1389 2012-04-02T23:58:56Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] | (No homework during the first week) |- | 2 | April 10, 12 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10, Due April 12, before lecture. |- | 3 | April 17, 19 | Waveguides and Antenna (9.5) | TBA |- | 4 | April 24, 26 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | May 1, 3 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6 | May 8 (May 10th is Midterm) | Radiation (11) | TBA |- | 7 | May 15, 17 | Radiation (11) | Midterm on May 10th |- | 8 | May 22, 24 | The special theory of relativity (12.1-12.2) | TBA |- | 9 | May 29, 31 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | June 5, 7 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> cf06a47fe4552acac97009d1b38223350a22c0c3 1389 1388 2012-04-02T23:44:34Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2) Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas] :: Lecture 1 ( [http://x-ray.ucsd.edu/mediawiki/images/1/1f/Lecture_1.pdf PDF]). | No homework during the first week) |- | 2 | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4) | 9.3, 9.5, 9.9, 9.10 |- | 3 | Waveguides and Antenna (9.5) | TBA |- | 4 | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | TBA |- | 5 | Lienard-Wiechert potentials and fields of a moving point charge (10.3) | TBA |- | 6, 7 | Radiation (11) | TBA |- | 8,9 | The special theory of relativity (12.1-12.2) | TBA |- | 10 | Relativistic Electrodynamics (12.2-12.3) | TBA |} <analytics uacct="UA-8527539-1" ></analytics> e60fac4ddde50f89777ca1dfedd21026ad1e251e 1388 1387 2012-04-02T23:41:51Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2012 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron, lboucheron@gmail.com ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | April 3, 5. Lectures 1 and 2 | No homework during the first week |- | 2 | Apr 10, 12. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. Proper velocity and momentum, relativistic field transformations, tensor formalism. | Special theory of relativity (12.1-12.2). | HW #8, Problems 12.10, 12.29 and 12.30, due Wed, June 2nd. |- | 10 | May 31-June 4 | Relativistic Electrodynamics (12.2-12.3). | No Homework - review past homeworks and solutions. |} <analytics uacct="UA-8527539-1" ></analytics> 8a7b4a214a7d6ccc9ba875052dfc6862e72298b3 1387 1384 2012-04-02T23:39:36Z Oleg 2 '''Welcome to Physics 100C webpage for Spring'2010 Quarter.''' == '''RECENT UPDATES:''' == == '''COURSE SUMMARY:''' == '''PHYS 100C, Electromagnetism, Spring 2012, UC San Diego''' '''Professor:''' '''Oleg Shpyrko''', oleg@physics.ucsd.edu '''Office:''' [http://maps.ucsd.edu/Viewer.htm?Map=Aerial2005&Cmnd=Mgfy&Pan=Once&View=Large&Campus=LaJolla&Zoom=5&R.x=0.430241&R.y=0.580028&Fill=348&LKey=7952 Mayer Hall] 3210, ext. 4-3066 ('''[[Oleg's_Office|Where is it]]'''?) '''Office Hours:''' Mondays 4-5PM as well as Discussion Session '''TA (Grader):''' Leandra Boucheron ---- '''Text:''' [http://www.amazon.com/Introduction-Electrodynamics-3rd-David-Griffiths/dp/013805326X/ref=sr_1_1?ie=UTF8&s=books&qid=1237596000&sr=8-1 Introduction to Electrodynamics, 3rd Edition, by David J. Griffiths]. (also check [http://www.abebooks.com/servlet/SearchResults?an=Griffiths&sts=t&tn=Electrodynamics&x=0&y=0 abebooks] for used copies) '''Lectures:''' Tue, Thu, 12:30PM-1:50PM, YORK 4080A '''Discussion Session:''' Fridays 2-2:50PM, SOLIS 111. '''Homework:''' Assigned weekly, due Thursdays, at the START of lecture. Will also be accepted at the following Tue lecture, but with a 20% penalty. '''Midterm:''' Thursday, May 10th, 12:30PM-1:50PM YORK 4080A (in class). Open book exam. Bring your textbook only, and a bluebook. '''Final:''' June 11, 11:30AM, Room TBD. Open book exam. Bring your textbook, notes, and a bluebook. '''Grading:''' Homework=20%, Midterm =30%, Final=50%. '''Academic Dishonesty:''' Please read the section entitled "UCSD Policy on Integrity of Scholarship" located in the2008-2009 General Catalog, www.ucsd.edu/catalog. The rules on academic dishonesty will be strictly enforced! '''Course Webpage:''' [http://x-ray.ucsd.edu/PHYS_100C x-ray.ucsd.edu/PHYS_100C] (RSS/Atom feeds available) --- == '''COURSE SCHEDULE:''' == {| class="wikitable" border="1" |- ! Week # ! Dates ! Topic (Chapter.Section) ! Homework Assignment |- | 1 | 3/29-Apr 2. Lecture 1 summary: we covered waves in 1D (9.1.1-9.1.2), discussed transverse/longitudinal waves (9.1.4), refreshed Maxwell Eqs. ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 summary: we have discovered that light is an Electromagnetic Wave and derived EM waves in vacuum from Maxwell Eqs. (9.2.1, 9.2.2) ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3 ([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | Wave Equations, Electromagnetic Waves in Vacuum (9.1-9.2). Review these [http://x-ray.ucsd.edu/mediawiki/images/d/df/Griffiths_Vectors.pdf Formulas]. Lecture 1 ([http://x-ray.ucsd.edu/mediawiki/images/1/19/PHYS_100C_Lecture1_March29.pdf PDF]). Lecture 2 ([http://x-ray.ucsd.edu/mediawiki/images/4/42/PHYS_100C_Lecture_2.pdf PDF]). Lecture 3([http://x-ray.ucsd.edu/mediawiki/images/9/97/PHYS_100C_Lecture_3.pdf PDF]). | No homework during the first week |- | 2 | Apr 5-9. Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]). Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]). Lecture 6 ([http://x-ray.ucsd.edu/mediawiki/images/d/d3/PHYS_100C_Lecture_6.pdf PDF]). | Electromagnetic Waves in Matter, Reflection and Transmission. Adsorption and Dispersion (9.3-9.4). Lecture 4 ([http://x-ray.ucsd.edu/mediawiki/images/3/36/PHYS_100C_Lecture4.pdf PDF]), Lecture 5 ([http://x-ray.ucsd.edu/mediawiki/images/b/b3/PHYS_100C_Lecture5.pdf PDF]) | Homework #1, due Monday April 12th (before class) is: Problems 9.2, 9.3, 9.5, 9.10 and 9.11 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Homework_1.pdf PDF]). HW#1 Solutions ([http://x-ray.ucsd.edu/mediawiki/images/4/46/Homework1_Solutions_2010.pdf PDF]) |- | 3 | Apr 12-16. Lecture 7 ([http://x-ray.ucsd.edu/mediawiki/images/8/8c/PHYS_100C_Lecture_7.pdf PDF)]. (9.4.1). Lecture 8 ([http://x-ray.ucsd.edu/mediawiki/images/0/09/PHYS_100C_Lecture_8.pdf PDF]) summary: We derived dispersion relation for a simplistic "mass on a spring" model for electron in EM waves (Section 9.4.3). | Waveguides and Antenna (9.5). Lectures 9-11 outline ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) | Homework #2 ([http://x-ray.ucsd.edu/mediawiki/images/d/da/PHYS_100C_Homework_2.pdf PDF]): 9.13, 9.14, 9.15, 9.16. due Monday, April 19th before lecture. HW#2 solutions ([http://x-ray.ucsd.edu/mediawiki/images/5/55/Homework2_solutions.pdf PDF]) |- | 4 | Apr 19-23. Lectures 9-12 ([http://x-ray.ucsd.edu/mediawiki/images/c/cb/PHYS_100C_Lectures_9-11_waveguides.pdf PDF]) (rough outline): dispersion, waveguides. | Potential formulation of Maxwell's equations and retarded potentials (10.1-10.2) | Homework #3 ([http://x-ray.ucsd.edu/mediawiki/images/1/1a/Homework_3.pdf PDF]): Problems 9.19, 9.24, 9.27, 9.28, 9.30. Due Monday, April 26. |- | 5 | Apr 26-30. Lecture 13 ([http://x-ray.ucsd.edu/mediawiki/images/d/df/PHYS_100C_Lecture_13.pdf PDF]) Introduction of potentials; Gauge transformations; Coulomb and Lorentz gauge. Lecture 14 ([http://x-ray.ucsd.edu/mediawiki/images/9/90/PHYS_100C_Lecture_14.pdf PDF]). We proved that retarded potentials defined in Lecture 13 satisfy the Maxwell equations in Lorenz gauge. | Lienard-Wiechert potentials and fields of a moving point charge (10.3). | Homework #4, Problems 10.1, 10.3, 10.5 and 10.7 ([https://docs.google.com/viewer?url=http://x-ray.ucsd.edu/mediawiki/images/7/7f/HOMEWORK4.pdf PDF]) is due Monday, May 3rd. HW 4 Solutions [http://x-ray.ucsd.edu/mediawiki/images/e/e1/PHYS_100C_HW4_Solutions.pdf PDF] |- | 6 | May 3-7. Lecture 15 ([http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_15.pdf PDF]) and Lecture 16 ([http://x-ray.ucsd.edu/mediawiki/images/6/67/PHYS_100C_Lecture_16.pdf PDF]): Jefimenko's equations, Lienard-Wiechert potentials. Midterm Solutions ([http://x-ray.ucsd.edu/mediawiki/images/c/ca/PHYS_100C_Midterm_solutions.pdf PDF]). Lectures 17 (May 7) and 18 (May 10) ([http://x-ray.ucsd.edu/mediawiki/images/f/f7/PHYS_100C_Lecture_17-18.pdf PDF]). | Radiation (11). Midterm (Wednesday, May 5th) | Homework #5 ([http://x-ray.ucsd.edu/mediawiki/images/a/ae/PHYS100C_HOMEWORK5.pdf PDF]): Problems 10.10, 10.13, 10.17 (second part only: show 10.71 is true), 10.20, 10.21. Due Monday, May 10th. HW 5 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/87/PHYS_100C_HW5_Solutions.pdf PDF] |- | 7 | May 10-14. Lectures 19 ([http://x-ray.ucsd.edu/mediawiki/images/3/37/PHYS_100C_Lecture_19.pdf PDF]) and Lectures 20 ([http://x-ray.ucsd.edu/mediawiki/images/b/b9/PHYS_100C_Lecture_20.pdf PDF]) | Radiation (11) cont'd. | Homework 6 ([http://x-ray.ucsd.edu/mediawiki/images/b/b7/PHYS100C_HOMEWORK6.pdf PDF]): Problems 11.9, 11.10, 11.13 and 11.25. Due Mon, May 17th. HW 6 Solutions [http://x-ray.ucsd.edu/mediawiki/images/2/2b/PHYS_100C_HW6_Solutions.pdf PDF] |- | 8 | May 17-21. Lectures 21 and 22 (May 17 and 19, respectively) ([http://x-ray.ucsd.edu/mediawiki/images/4/49/PHYS_100C_Lectures_21_-_22.pdf PDF]). Special relativity postulates, time dilation and Lorentz contraction. 4-vectors, time-like and space-like intervals. Michelson-Morley experiment. | Special theory of relativity (12.1-12.2). | Homework #7 ([http://x-ray.ucsd.edu/mediawiki/images/d/d2/PHYS_100C_Homework7.pdf PDF]) is Problems 12.6, 12.7 and 12.17. HW 7 Solutions [http://x-ray.ucsd.edu/mediawiki/images/8/8d/PHYS_100C_HW7_Solutions.pdf PDF] |- | 9 | May 24-28. Lecture 23 [http://x-ray.ucsd.edu/mediawiki/images/9/93/PHYS_100C_Lecture_23.pdf PDF], Lecture 24 [http://x-ray.ucsd.edu/mediawiki/images/4/4a/PHYS_100C_Lecture_24.pdf PDF], Lecture 25 [http://x-ray.ucsd.edu/mediawiki/images/5/58/PHYS_100C_Lecture_25.pdf PDF]. 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Review of applications will begin June 15, 2009 will continue until the position is filled. '''Requirements''' Applicants with specialization in x-ray scattering techniques, synthesis and/or characterization of novel materials and correlated electron materials (particularly high temperature superconductors) will be given the highest consideration. Experience in synchrotron x-ray scattering is highly desirable. For '''more information''' on group's interests visit [http://oleg.ucsd.edu oleg.ucsd.edu] Applicants must hold Ph.D. degree in experimental condensed matter physics, materials physics or closely related discipline and will be expected to supervise students, primarily at the graduate level. The position is funded via Air Force Office of Scientific Research (AFOSR) Multidisciplinary University Research Initiative (MURI), "Search for New Superconductors", and involves collaborations between UC San Diego (lead institution), UC Irvine, Univ. Madison Milwaukee, Rutgers U., Oak Ridge National Lab and University of Madrid, Spain. 7e852108a405fd4b17d455106d1ace392c7e432d 598 590 2009-06-07T15:08:12Z Oleg 2 '''Description''' [http://oleg.ucsd.edu Shpyrko Group] in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego] invites applications for Postdoctoral Scholar position in experimental condensed matter physics, with the funding available beginning July 1st, 2009. '''Fields of interest''' include, but are not limited to development and application of x-ray scattering, spectroscopic and microscopy techniques to investigate structural, electronic and magnetic properties of novel high-temperature superconductors. 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'''Requirements''' Applicants with specialization in x-ray scattering techniques, synthesis and/or characterization of novel materials and correlated electron materials (particularly high temperature superconductors) will be given the highest consideration. Experience in synchrotron x-ray scattering is highly desirable. For more information on group's interests visit http://oleg.ucsd.edu Applicants must hold Ph.D. degree in experimental condensed matter physics, materials physics or closely related discipline and will be expected to supervise students, primarily at the graduate level. The position is funded via Air Force Office of Scientific Research (AFOSR) Multidisciplinary University Research Initiative (MURI), "Search for New Superconductors", and involves collaborations between UC San Diego (lead institution), UC Irvine, Univ. Madison Milwaukee, Rutgers U., Oak Ridge National Lab and University of Madrid, Spain. 5294026a43aac79e043b09ec39db9088a4a2910e 590 587 2009-06-06T03:55:47Z Oleg 2 Description [http://oleg.ucsd.edu Shpyrko Group] in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego] invites applications for Postdoctoral Scholar position in experimental condensed matter physics, with the funding available beginning July 1st, 2009. Fields of interest include, but are not limited to development and application of x-ray scattering, spectroscopic and microscopy techniques to investigate structural, electronic and magnetic properties of novel high-temperature superconductors. The candidate is expected to closely interact with other members of collaborative research team (both at UC San Diego and elsewhere) on synthesis of novel thin film and bulk materials. Applicants should submit a curriculum vitae, a list of publications and contact information for three references to Prof. Oleg Shpyrko via email to [mailto:oleg@physics.ucsd.edu?subject=MURI-Postdoc oleg@physics.ucsd.edu] with subject line: MURI-Postdoc. Please provide a brief 2-3 line summary of your key qualifications, past experience and research interest in the body of email, in place of the cover letter. UCSD is an EO/AA employer. NOTES: International Candidates Will Be Considered. Salary will be based on published UC pay scales. Review of applications will begin June 15, 2009 will continue until the position is filled. '''Requirements''' Applicants with specialization in x-ray scattering techniques, high temperature superconductors and discovery of novel materials will be given the highest consideration. Experience in synchrotron radiation is highly desirable. For more information on group's interests visit http://oleg.ucsd.edu Applicants must hold Ph.D. degree in experimental condensed matter physics, materials physics or closely related discipline and will be expected to teach and supervise students, primarily at the graduate level, conduct an extramurally funded research program. The position is funded via Air Force Office of Scientific Research (AFOSR) Multidisciplinary University Research Initiative (MURI), "Search for New Superconductors", and involved collaborations between UC San Diego (lead institution), UC Irvine, Univ. Madison Milwaukee, Rutgers U., Oak Ridge National Lab and University of Madrid, Spain. 12e8eed74a0f1399f0a840d02d9e5c16d620c261 587 586 2009-06-06T01:08:37Z Oleg 2 Description The [http://oleg.ucsd.edu Prof. Shpyrko Group] in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego] invites applications for Postdoctoral Scholar position in experimental condensed matter physics, with the funding available beginning July 1st, 2009. Fields of interest include, but are not limited to development and application of x-ray scattering, spectroscopic and microscopy techniques to investigate structural, electronic and magnetic properties of novel high-temperature superconductors. 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'''Requirements''' Applicants with specialization in x-ray scattering techniques, high temperature superconductors and discovery of novel materials will be given the highest consideration. Experience in synchrotron radiation is highly desirable. For more information on group's interests visit http://oleg.ucsd.edu Applicants must hold Ph.D. degree in experimental condensed matter physics, materials physics or closely related discipline and will be expected to teach and supervise students, primarily at the graduate level, conduct an extramurally funded research program. The position is funded via Air Force Office of Scientific Research (AFOSR) Multidisciplinary University Research Initiative (MURI), "Search for New Superconductors", and involved collaborations between UC San Diego (lead institution), UC Irvine, Univ. Madison Milwaukee, Rutgers U., Oak Ridge National Lab and University of Madrid, Spain. c15b642246dfab96463040afe4b063767c91b493 586 585 2009-06-06T01:06:49Z Oleg 2 Description The [http://oleg.ucsd.edu Prof. Shpyrko Group] in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego] invites applications for Postdoctoral Scholar position(s) in experimental condensed matter physics, with the funding available on July 1st, 2009. Fields of interest include, but are not limited to development and application of x-ray scattering, spectroscopic and microscopy techniques to investigate structural, electronic and magnetic properties of novel high-temperature superconductors. 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Madison Milwaukee, Rutgers U., Oak Ridge National Lab and University of Madrid. 54c5012d84cadca4059d8ddf0dd23cbf3765805a 585 2009-06-05T16:32:09Z Oleg 2 New page: Description The Prof. Shpyrko Group in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedi... Description The Prof. Shpyrko Group in the [http://physics.ucsd.edu Department of Physics] and the [http://ipaps.ucsd.edu/ Institute of Pure and Applied Physics] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego] invites applications for Postdoctoral Scholar position(s) in experimental condensed matter physics, with the funding available on July 1st, 2009. Fields of interest include, but are not limited to development and application of x-ray scattering, spectroscopic and microscopy techniques to investigate structural, electronic and magnetic properties of novel high-temperature superconductors. The candidate is expected to closely interact with other members of collaborative team on synthesis of novel thin film and bulk materials. Applicants should submit a curriculum vitae, a list of publications and contact information for three references to Prof. Oleg Shpyrko via email to oshpyrko@physics.ucsd.edu with subject line: MURI Postdoc application. UCSD is an EO/AA employer. NOTES: International Candidates Will Be Considered. Salary will be based on published UC pay scales. Review of applications will begin June 15, 2009 will continue until the position is filled. '''Requirements''' Applicants with specialization in x-ray scattering techniques, high temperature superconductors and discovery of novel materials will be given the highest consideration. Experience in synchrotron radiation is highly desirable. 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Let’s face it: nobody likes tedious tasks slowing down their adventure. '''VISIT HACK HERE >> https://www.goups.pro/1040538''' With our Psychonauts 2 generator, you can access powerful cheats that require NO human verification. Say goodbye to frustration and hello to seamless gameplay! Imagine skipping those tough spots and diving straight into the heart of this enchanting world. Join countless players who have transformed their gaming with simple tweaks. Don’t let obstacles hold you back—embrace the adventure! Click the link in our bio to discover how simple it is to elevate your game. 💥🧠 #Psychonauts2 #GamingHacks #LevelUp — Unlock the full potential of your gaming experience with our ultimate Psychonauts 2 cheats and hacks! 🎮✨ Tired of getting stuck at challenging levels? Frustrated with grinding for resources? It’s time to take control and elevate your gameplay with our reliable hacks—no human verification needed! Imagine breezing through the game, effortlessly acquiring every collectible and unlocking hidden secrets. Our tools are designed not just to make things easier, but to enhance your overall enjoyment of Psychonauts 2. Why wait? Join countless others who have already unlocked these powerful features. Click the link in our bio now and start your journey towards mastering Psychonauts 2 today! 🚀💥 #Psychonauts2 #GamingHacks #CheatYourWay 28390c9098b17ccf0728f263fff14e1462d6e510 0 167 1996 1966 2020-03-12T01:44:11Z Oleg 2 Undo revision 1966 by [[Special:Contributions/Dcela|Dcela]] ([[User talk:Dcela|talk]]) [[PublicationsTabular|''Sortable Table'']] == Published: == '''65. [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude]'''<br/> A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Phys. Rev. Lett. 117, 056401] '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapteyn [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a69f1dbee5e0bc7ee880ea674e86cad9b8cb143a 1966 1943 2018-11-25T20:53:45Z Dcela 47 {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 585748fd45e0522978d159cf8f81a06c94660f89 1943 1791 2018-11-25T20:15:42Z Dcela 47 /* Published: */ [[PublicationsTabular|''Sortable Table'']] == Published: == '''65. [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude]'''<br/> A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Phys. Rev. Lett. 117, 056401] '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapteyn [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a69f1dbee5e0bc7ee880ea674e86cad9b8cb143a 1791 1790 2016-09-27T15:06:07Z Oleg 2 /* Published: */ == Published: == '''65. [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude]'''<br/> A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Phys. Rev. Lett. 117, 056401] '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapteyn [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 2e43b8a0bcf5c46b32c776bcb50fd9884c2d1e49 1790 1789 2016-09-27T15:05:40Z Oleg 2 /* Published: */ == Published: == '''65. [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude]'''<br/> A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Phys. Rev. Lett. 117, 056401] '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapten [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 2d549e8941c7a11ec9ffa3db36caaf82d422c3cd 1789 1740 2016-06-27T18:53:51Z Oleg 2 /* Published: */ == Published: == '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapten [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 6f84709446502513f8072bc8ce5d3153eb591cce 1740 1739 2016-01-28T19:56:52Z Oleg 2 /* Published: */ == Published: == '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapten [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] ccbeca24247f0457aaafe9172d0e959400b3d9b8 1739 1738 2016-01-28T19:54:00Z Oleg 2 /* Published: */ == Published: == '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapten [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 6a414cd75c139a8f7f227e6be94ecdffd7602cb8 1738 1737 2016-01-28T19:52:53Z Oleg 2 /* Published: */ == Published: == '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapten [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 37d83d04239420dbcbc96049c25cddba9863cd12 1737 1736 2016-01-28T18:37:09Z Oleg 2 /* Published: */ == Published: == '''61. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 414f74ad4dd30f633e2b63a5d48b9e7d2531a058 1736 1735 2016-01-28T18:36:21Z Oleg 2 /* Published: */ == Published: == '''61. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] f3a17375338f00c51db0b8430407e5b97c0ad0b3 1735 1734 2015-10-28T15:03:43Z Oleg 2 /* Published: */ == Published: == '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 62a793e3d81d3f0ec2d728005956e85c20dc3cd0 1734 1733 2015-10-28T15:03:19Z Oleg 2 /* Published: */ == Published: == '''60. [http://dx.doi.org/10.1107/10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] bec1995576273184ffccd9941c6a79c8689ea0bd 1733 1732 2015-10-28T15:00:56Z Oleg 2 /* Published: */ == Published: == '''60. [http://dx.doi.org/10.1107/S1600577515017336 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] f2eddcb42c493f70480e42a03cb3b8bc1b72581e 1732 1730 2015-10-28T14:59:45Z Oleg 2 /* Published: */ == Published: == '''60. [http://dx.doi.org/10.1107/S1600577515017336 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 76ae5ccdc89afe26400568ccec1ffb904e459b4c 1730 1711 2015-10-19T17:30:26Z Sebastian 30 /* Published: */ == Published: == '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22 (6) (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 3817f367652b67655f1e0da60d7aa4b8548db5eb 1711 1706 2015-08-05T17:56:32Z Oleg 2 /* Published: */ == Published: == '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 3f8d8f6abb8334c3a873622a75512a5b42f0bed5 1706 1699 2015-06-23T19:56:45Z Oleg 2 /* Published: */ == Published: == '''57. [http://dx.doi.org/10.1126/science.aaa1313 Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://dx.doi.org/10.1126/science.aaa1313 Science 348 (6241), 1344-1347 (2015)] '''56. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''55. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 5b06074798134b2fe95e1038dc008d6a6d80c644 1699 1698 2015-03-24T13:35:51Z Oleg 2 /* Published: */ == Published: == '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 970a8d37e9b8ab366365b515328241170e1bf39b 1698 1697 2015-03-24T13:14:50Z Oleg 2 /* Published: */ == Published: == '''53. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''52. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics DOI: 10.1039/C5CP00372E (2015)] '''51. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 0f4f46868921694cec4e56a10c8b0f49ec59c0a8 1697 1693 2015-03-24T12:58:22Z Oleg 2 /* Published: */ == Published: == '''51. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, Appl. Phys. Lett. 105 (17) 173108 (2014) '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, Nano letters 14 (9), 5295 (2014) '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, J. Synchr. Rad., 21 (5), 1057 (2014) '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, Nano letters, 14 (9), 5123 (2014) '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 5b4cb542c41be5d6a3448016e0f6d986c6dd93a3 1693 1692 2015-01-16T17:04:22Z Oleg 2 /* Published: */ == Published: == '''51. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, Appl. Phys. Lett. 105 (17) 173108 (2014) '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, Nano letters 14 (9), 5295 (2014) '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, J. Synchr. Rad., 21 (5), 1057 (2014) '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u “Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging”]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, Nano letters, 14 (9), 5123 (2014) '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports,4,(2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] e6aeb410326b530587d762e295cc0e17f06a9939 1692 1691 2014-10-09T09:21:40Z Sebastian 30 /* Published: */ == Published: == '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports,4,(2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] ea9faee0a6da01daca5bc2bfdd3e522d9e98e549 1691 1690 2014-09-09T19:36:19Z Yeling121 6 /* Published: */ == Published: == '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports,4,(2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] f545ba26c22ac6180fce176154063d5c9987fd23 1690 1689 2014-09-09T19:35:35Z Yeling121 6 /* Published: */ == Published: == '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017 Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017 Scientific Reports,4,(2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] acbbdc5413770389227e17503ca9794823d91c82 1689 1685 2014-07-02T07:39:59Z Sebastian 30 /* Published: */ == Published: == '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> [[PublicationsTabular|''Sortable Table'']] 7ecb5060ba7b9a339b0e60e5d82b5aa8f89490b8 1685 1682 2014-05-02T03:06:30Z Oleg 2 Reverted edits by [[Special:Contributions/Sebastian|Sebastian]] ([[User talk:Sebastian|Talk]]) to last revision by [[User:Oleg|Oleg]] == Published: == '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 10e3f18f2345c8049cf05baeda8408bb9487b01c 1682 1680 2014-04-17T06:52:52Z Sebastian 30 /* Published: */ == [[PublicationsCitations|''Published'']]: == {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2014-02 | A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko | [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures] | Appl. Phys. Lett. |- | 2014-01 | A. Tripathi, I. McNulty, and O. G. Shpyrko | [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods] | Opt. Ex. |- | 2013-10 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko | [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression] | Langmuir |- | 2013-11 | Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller | [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl] | J. of Mag. and Mag. Mat. |- | 2013-10 | H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs | [http://dx.doi.org/10.1103/PhysRevB.88.140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium] | Phys. Rev. B |- | 2012-11 | K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko | [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures] | Phys. Rev. Lett. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | A. Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} a0aa4fcf40696e1cc667cbd275af086465a2785d 1680 1679 2014-04-17T06:35:32Z Sebastian 30 /* Published: */ == [[PublicationsCitations|''Published'']]: == {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2014-02 | A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko | [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures] | Appl. Phys. Lett. |- | 2014-01 | A. Tripathi, I. McNulty, and O. G. Shpyrko | [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods] | Opt. Ex. |- | 2013-10 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko | [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression] | Langmuir |- | 2013-11 | Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller | [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl] | J. of Mag. and Mag. Mat. |- | 2013-10 | H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs | [http://dx.doi.org/10.1103/PhysRevB.88.140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium] | Phys. Rev. B |- | 2012-11 | K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko | [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures] | Phys. Rev. Lett. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | A. Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} ea13fed352b104e0f7e84f4be15aeeba2cdad486 1679 1677 2014-04-17T06:32:14Z Sebastian 30 /* Published: */ == [[PublicationsCitations|''Published'']]: == {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2014-02 | A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko | [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures] | Appl. Phys. Lett. |- | 2014-01 | A. Tripathi, I. McNulty, and O. G. Shpyrko | [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods] | Opt. Ex. |- | 2013-10 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko | [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression] | Langmuir |- | 2013-11 | Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller | [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl] | J. of Mag. and Mag. Mat. |- | 2013-10 | H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs | [http://dx.doi.org/10.1103/PhysRevB.88.140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium] | Phys. Rev. B |- | 2012-11 | K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko | [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures] | Phys. Rev. Lett. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} ded930205054caf1781d586ab3c5ff2445071db9 1677 1676 2014-04-17T06:27:24Z Sebastian 30 /* Published: */ == Published: == {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2014-02 | A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko | [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures] | Appl. Phys. Lett. |- | 2014-01 | A. Tripathi, I. McNulty, and O. G. Shpyrko | [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods] | Opt. Ex. |- | 2013-10 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko | [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression] | Langmuir |- | 2013-11 | Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller | [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl] | J. of Mag. and Mag. Mat. |- | 2013-10 | H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs | [http://dx.doi.org/10.1103/PhysRevB.88.140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium] | Phys. Rev. B |- | 2012-11 | K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko | [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures] | Phys. Rev. Lett. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 4356f4a6760db169173ebdeeb62cf9efecf10082 1676 1675 2014-03-18T15:30:52Z Oleg 2 /* Published: */ == Published: == '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 10e3f18f2345c8049cf05baeda8408bb9487b01c 1675 1623 2014-03-18T15:24:55Z Oleg 2 /* Published: */ == Published: == '''44. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> f58f0a12c402f5c6febb010e4b3363d621db77b1 1623 1621 2013-11-05T20:18:02Z Yeling121 6 /* Published: */ == Published: == '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko <br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, Article ASAP(2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 1127565cfb4b2b82986324facd77e37cde6184f2 1621 1620 2013-10-24T19:34:11Z Oleg 2 /* Published: */ == Published: == '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> d166bfca4e19637701664e4a4bc985b9c50e8f10 1620 1619 2013-10-24T19:22:27Z Oleg 2 == Published: == '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> f81385ce4a178519511b1554534f1302b3f7cfef 1619 1496 2013-10-24T19:22:06Z Oleg 2 /* Published: */ == In Preparation: * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> e125d624486e762e3331fcde8928f85ab99a126a 1496 1495 2012-11-13T23:39:29Z Oleg 2 == In Preparation: * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> d6d0f6fd47b9fecf98d62a0a188b429184a7c5af 1495 1491 2012-11-13T23:38:55Z Oleg 2 == In Preparation: * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 3093f21431481097d4f1caa73ed418b7248f3341 1491 1490 2012-11-05T20:26:17Z Oleg 2 == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, to appear in Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 86fda3b5164d6b1e28af17fe49fdcc89f8a35819 1490 1489 2012-11-05T20:26:02Z Oleg 2 == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, to appear in Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 247fa99341e3ffd96514046081bc673ac2914281 1489 1480 2012-11-05T20:25:36Z Oleg 2 == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, to appear in Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 7a8e3be85e2b1f02153ef98f33af5026fe5e59d4 1480 1479 2012-10-22T16:57:57Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, to appear in Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, to appear in Phys. Rev. B (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> c532880b3e97a38ca60b478ffe1f8c64df6935f0 1479 1478 2012-10-22T16:57:33Z Oleg 2 /* Published: */ == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> f87beb5e5993bc310f40fd7274483133dfd42b95 1478 1477 2012-10-22T16:56:55Z Oleg 2 /* Published: */ == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 8326bcfbb56ee7d3e98256a10f3f0b1585ee2083 1477 1469 2012-10-22T16:56:32Z Oleg 2 == Submitted/In Press: == * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 2f509d013e98cf5282367dad7ce163ce7d2767ec 1469 1468 2012-07-19T18:43:40Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, Nano Lett. (2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B (2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C.L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 7f4c70b2f2d5bdd39a7de455eb8e3a6941b669ae 1468 1467 2012-07-19T18:43:19Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, in press Nano Lett. (2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, in press Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B(2012) In Progress/preparation: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) * “Ptychographic overlap constraint errors and diffraction limited imaging” Ashish Tripathi, Ian McNulty, Oleg G. Shpyrko, (in preparation) * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C.L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “Surface Capillary Wave Dynamics of Laterally Confined Molten Polymer Films”, Yeling Dai, Kyle J. Alvine, Hyun Wook Ro, Christopher L. Soles, Suresh Narayanan, Alec R. Sandy and Oleg G. Shpyrko (in preparation) == Published: == '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 4db61b10d195879006e6729a19fa64c1d1f6195b 1467 1466 2012-07-19T18:41:02Z Oleg 2 == Submitted/In Press: == * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, in press Nano Lett. (2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, in press Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B(2012) In Progress: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) == Published: == '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> b606c9ea8e4ec80e3ef27386d0af6795ead9763e 1466 1465 2012-07-12T18:28:41Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * "Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires” E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko, in press Appl. Phys. Lett. (2012) * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, in press Nano Lett. (2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, in press Phys. Rev. Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B(2012) In Progress: * “Development of a Zig-Zag Capillary Instability in Nanoimprinted Patterns: A Time-Resolved GISAXS Study”, Y. Dai, K. J. Alvine, H. Ro, C. L. Soles, J. Strzalka, O.G. Shpyrko (in preparation) * “X-ray induced persistent photoconductivity in vanadium dioxide” S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (in preparation) * “Search for new materials: phase spread alloy fabrication and characterization”, M. Marsh, J. de la Venta, S. Dietze, A. Basaran, O. Khattib, D. Basov and O. G. Shpyrko (in preparation) == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> ''[http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 9a0098d6e311b27f9baf438d44db0892c39f8b91 1465 1452 2012-07-12T18:22:08Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * "Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires” E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko, submitted to Appl. Phys. Lett. (2012) * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, submitted to Nano Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted to Phys. Rev. B(2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, O. G. Shpyrko, et al., subm. to Phys. Rev. Lett. (2012) In Progress: * “X-ray induced persistent photoconductivity in vanadium dioxide”, S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (2012) == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> ''[http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a65972bd175a599d8c1bf4c50b8cc2a73dfe7443 1452 1451 2012-05-26T04:40:00Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == * "Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires” E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko, submitted to Appl. Phys. Lett. (2012) * “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, submitted to Nano Lett. (2012) * “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) * “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted (2012) * "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, O. G. Shpyrko, et al., subm. to Phys. Rev. Lett. (2012) In Progress: * “X-ray induced persistent photoconductivity in vanadium dioxide”, S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (2012) == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> ''[http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 09cc39e83184d88952a798812b0146fe2b33d8db 1451 1450 2012-05-26T04:39:30Z Oleg 2 /* Submitted/In Press: */ == Submitted/In Press: == "Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires” E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko, submitted to Appl. Phys. Lett. (2012) “Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography” S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, submitted to Nano Lett. (2012) “Collective pinning dynamics of charge density waves in 1T-TaS2”, J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, submitted to Phys. Rev. Lett. (2012) “Avalanches and Continuous Flow in Aging Aqueous Foam” M. Folkerts, S. Stanwyck and O. G. Shpyrko submitted (2012) "Capillary wave dynamics of thin polymer films over submerged nanostructures" K. J. Alvine, Y. Dai, O. G. Shpyrko, et al., subm. to Phys. Rev. Lett. (2012) In Progress: “X-ray induced persistent photoconductivity in vanadium dioxide”, S. H. Dietze, M. J. Marsh, K. G. West, S. Wang, Z. Cai, J.-G. Ramírez, I. K. Schuller and O. G. Shpyrko (2012) == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> ''[http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 65cf06375dfe9ba94237298e0981bb9efc5a15f2 1450 1449 2012-05-26T04:35:52Z Oleg 2 /* Published: */ == Submitted/In Press: == == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> ''[http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 66f6a2fd5430e594c39e47e357c415a6251b9ccd 1449 1448 2012-05-26T04:35:01Z Oleg 2 /* Published: */ == Submitted/In Press: == == Published: == '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 4f00d3e91752c9fb052118c9a2ba511e5c2438e3 1448 1368 2012-05-26T04:34:36Z Oleg 2 /* Published: */ == Submitted/In Press: == == Published: == ""36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]""<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> fdbaea913919ad767f7d72829965109c37653879 1368 1367 2011-11-30T20:29:26Z Yeling121 6 /* Submitted/In Press: */ == Submitted/In Press: == == Published: == '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 79d00412c64c532b9a17316f41efab4d6f6a9f8e 1367 1361 2011-11-30T20:28:39Z Yeling121 6 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a274cc3c67ad6fb5dd02b2ca2ce23bc5c0985427 1361 1310 2011-10-28T20:41:53Z Oleg 2 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 7bab044b0248162e1e90ef4012fb28a9ed4bfb07 1310 1309 2011-09-09T20:18:52Z Moses 24 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 PNAS'' (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> e640408d37abfe729b0032f60a4c1b0b8a9cec7b 1309 1308 2011-09-09T20:18:33Z Moses 24 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 PNAS]'' (2011) '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> f91f556dab817a7d6b9c0a02d048c15ce0a46a52 1308 1303 2011-09-09T20:18:07Z Moses 24 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, ''[http://www.pnas.org/content/early/2011/08/01/1104304108 PNAS]'' (2011) '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 39f1353dd0dc55327c27ae9aa1ed1c610f273f01 1303 1302 2011-09-09T20:06:58Z Moses 24 /* Published: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2011) '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a4e9bb1e02cb89139d1888c4c7b4938cedfee1c2 1302 1205 2011-09-09T20:06:19Z Moses 24 /* Submitted/In Press: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) == Published: == '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> da3cc337173e67566f52454870f4fc910154ac70 1205 1204 2011-07-08T18:47:35Z Oleg 2 /* Submitted: */ == Submitted/In Press: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, In Press, J. Appl. Phys. (2011) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, In Press, J. Appl. Phys. (2011) '''33. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2011) == Published: == '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> d40f14232860f2235672c8542a6d4b91b04ebe36 1204 1203 2011-07-08T18:40:12Z Oleg 2 /* Published: */ == Submitted: == '''34. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, submitted (2010) '''33. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, submitted (2010) '''32. Nanoscale decoupling between the electronic and structural transitions in vanadium dioxide'''<br/> M. M. Qazilbash, A. Tripathi, B.-G. Chae, B. J. Kim, H.-T. Kim, Z. Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov, in press, Phys. Rev. B (2011) '''31. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, (2011) == Published: == '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 54732901d2ce445b74625ae9777ac44047047644 1203 1173 2011-07-08T18:39:57Z Oleg 2 /* Published: */ == Submitted: == '''34. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, submitted (2010) '''33. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, submitted (2010) '''32. Nanoscale decoupling between the electronic and structural transitions in vanadium dioxide'''<br/> M. M. Qazilbash, A. Tripathi, B.-G. Chae, B. J. Kim, H.-T. Kim, Z. Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov, in press, Phys. Rev. B (2011) '''31. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, (2011) == Published: == '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 3c9e25958d8d19744c3c055389300f6799205dab 1173 1142 2011-03-04T19:23:40Z Oleg 2 /* Submitted: */ == Submitted: == '''34. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, submitted (2010) '''33. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, submitted (2010) '''32. Nanoscale decoupling between the electronic and structural transitions in vanadium dioxide'''<br/> M. M. Qazilbash, A. Tripathi, B.-G. Chae, B. J. Kim, H.-T. Kim, Z. Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov, in press, Phys. Rev. B (2011) '''31. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, (2011) == Published: == '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 001171b364ea0f893d38250386603643a55bc352 1142 1141 2010-10-28T18:34:23Z Oleg 2 /* Submitted: */ == Submitted: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, submitted (2010) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, submitted (2010) '''33. Nanoscale decoupling between the electronic and structural transitions in vanadium dioxide'''<br/> M. M. Qazilbash, A. Tripathi, B.-G. Chae, B. J. Kim, H.-T. Kim, Z. Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov, submitted (2010) '''32. Influence of Noise and Missing Data on Reconstruction Quality in Coherent X-ray Diffractive Imaging '''<br/> A. Tripathi, Oleg Shpyrko, and Ian McNulty, submitted (2010) '''31. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2010) == Published: == '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> caf8bcaca88727966f13a22a420f46b6e78fc182 1141 1140 2010-10-28T18:34:08Z Oleg 2 /* Submitted: */ == Submitted: == '''35. Governing Factors in Stress Response of Nanoparticle Films on Water Surface'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin, submitted (2010) '''34. A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity'''<br/>, Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, submitted (2010) '''33. Nanoscale decoupling between the electronic and structural transitions in vanadium dioxide'''<br/> M. M. Qazilbash, A. Tripathi, B.-G. Chae, B. J. Kim, H.-T. Kim, Z. Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov, submitted (2010) '''32. Influence of Noise and Missing Data on Reconstruction Quality in Coherent X-ray Diffractive Imaging '''<br/> A. Tripathi, Oleg Shpyrko, and Ian McNulty, submitted (2010) '''31. Dichroic Coherent Diffractive Imaging'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, submitted (2010) == Published: == '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 79b67a1c55a0d3a9ba561ac86672095d0494482d 1140 1139 2010-10-28T18:21:51Z Oleg 2 /* Published: */ == Submitted: == == Published: == '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> cfca58d8435184993897533565b4ab9fd90f4a11 1139 1060 2010-10-28T18:19:37Z Oleg 2 /* Published: */ == Submitted: == == Published: == '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner Phys. Rev. Lett. 105, 186101 (2010) '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, McGraw Hill 2010 Yearbook of Science & Technology (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a4dddf9f2ade04d4fbb76da2a2d5f9ba3bbe62ab 1060 722 2010-08-06T01:04:32Z Moses 24 /* Published: */ == Submitted: == == Published: == '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 6305e3283aa1345dd32d095755d6ebf5f6651948 722 482 2009-09-20T15:41:59Z Oleg 2 == Submitted: == == Published: == '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 Phys. Rev. B 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Phys. Rev. B 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Phys. Rev. B 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> e004729c87b1b22ca5fd7393d80e192317c9b412 482 464 2009-05-02T17:37:12Z Oleg 2 == Submitted: == '''28.''' '''[http://x-ray.ucsd.edu/mediawiki/index.php/Image:Pershan_etal_PRB_AuGe_as-submitted_042809.pdf Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> Subm. to Phys. Rev. B (2009) == Published: == '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Phys. Rev. B 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Phys. Rev. B 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 99ae960a27c1d1124154c1a5c8b726f9f0d370f4 464 463 2009-05-02T16:44:18Z Oleg 2 == Submitted: == '''28.''' '''Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> Subm. to Phys. Rev. B (2009) == Published: == '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Phys. Rev. B 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Phys. Rev. B 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> beef19a7c154e8747146fc473cccecd50990cf48 463 2009-05-02T16:36:18Z Oleg 2 New page: Published: '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, O... Published: '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Phys. Rev. B 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Phys. Rev. B 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 Phys. Rev. B 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)]<br /> ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)]<br /><br /> '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 95b8ce77fdf4fac9e301f622103eb30262df4088 0 398 1688 2014-07-02T07:35:57Z Sebastian 30 moved [[PublicationsCitations]] to [[PublicationsTabular]]:&#32;Old Page was repeat of existing #REDIRECT [[PublicationsTabular]] 4d2ceff27677904ddd0fe68a1eed1f6e33e57f9a 0 397 1965 1964 2018-11-25T20:53:14Z Dcela 47 {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} [[PublicationsTabular|''Sortable Table'']] == Published: == '''65. [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude]'''<br/> A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko [http://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Phys. Rev. Lett. 117, 056401] '''64. [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales]'''<br/> Andrej Singer, Leandra Boucheron, Sebastian H. Dietze, Katharine E. Jensen, David Vine, Ian McNulty, Eric R. Dufresne, Richard O. Prum, Simon G. J. Mochrie and Oleg G. Shpyrko, [http://advances.sciencemag.org/content/2/6/e1600149 Sci. Adv. 2 (6), 1600149 (2016)] '''63. [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition]'''<br/> Sohini Manna, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko and Eric E. Fullerton, [http://scitation.aip.org/content/aip/journal/jap/119/17/10.1063/1.4948565 J. Appl. Phys. 119, 174301 (2016)] '''62. [http://dx.doi.org//10.1038/ncomms10092 Avalanching strain dynamics during the hydriding phase transformation in individual palladium nanoparticles]'''<br/> A. Ulvestad, M. J. Welland, S. S. E. Collins, R. Harder, E. Maxey, J. Wingert, A. Singer, S. Hy, P. Mulvaney, P. Zapol & O. G. Shpyrko [http://dx.doi.org//10.1038/ncomms10092 Nature Communications 6, 10092 (2015)] '''61. [http://dx.doi.org/10.1073/pnas.1519666112 Bright circularly polarized soft X-ray high harmonics for X-ray magnetic circular dichroism]'''<br/> Tingting Fan, Patrik Grychtol, Ronny Knut, Carlos Hernández-García, Daniel D Hickstein, Dmitriy Zusin, Christian Gentry, Franklin J Dollar, Christopher A Mancuso, Craig W Hogle, Ofer Kfir, Dominik Legut, Karel Carva, Jennifer L Ellis, Kevin M Dorney, Cong Chen, Oleg G Shpyrko, Eric E Fullerton, Oren Cohen, Peter M Oppeneer, Dejan B Milošević, Andreas Becker, Agnieszka A Jaroń-Becker, Tenio Popmintchev, Margaret M Murnane, Henry C Kapteyn [http://dx.doi.org/10.1073/pnas.1519666112 Proc Natl Acad Sci U S A 112, 14206 (2015)] '''60. [http://dx.doi.org//10.1107/S1600577515013806 A new method for studying sub-pulse dynamics at synchrotron sources]'''<br/> J. Wingert, A. Singer and O. G. Shpyrko [http://dx.doi.org/10.1107/S1600577515013806 J. Synchrotron Rad. 22, 1141, (2015)] '''59. [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution]'''<br/> S. H. Dietze and O. G. Shpyrko, [http://dx.doi.org/10.1107/S1600577515017336 J. Synchrotron Rad. 22, 1498 (2015)] '''58. [http://www.sciencemag.org/cgi/content/full/348/6241/1344?ijkey=IGpSGlKa/GLFE&keytype=ref&siteid=sci Topological defect dynamics in operando battery nanoparticles]'''<br/> A. Ulvestad, A. Singer, J. N. Clark, H. M. Cho, J. W. Kim, R. Harder, J. Maser, Y. S. Meng,and O. G. Shpyrko, [http://science.sciencemag.org/content/sci/348/6241/1344.full.pdf Science 348 (6241), 1344-1347 (2015)] '''57. [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 3D Imaging of Twin Domain Defects in Gold Nanoparticles]'''<br/> Andrew P. Ulvestad, Jesse Clark, Ross Harder, Ian K. Robinson and Oleg G. Shpyrko [http://pubs.acs.org/doi/abs/10.1021/acs.nanolett.5b01104 Nano Lett.,15 (6), 4066 (2015)] '''56. [http://dx.doi.org/10.1063/1.4922369 Novel comparison of microscopy and diffraction techniques on the structure of iron oxide nanoparticle monolayers transferred by Langmuir-Schaefer method]'''<br/> Jacob Stanley, Yeling Dai, Leandra Boucheron, Binhua Lin, Mati Meron and Oleg Shpyrko, [http://dx.doi.org/10.1063/1.4922369 Rev. Sci. Instrum. 86, 063704 (2015)] '''55. [http://dx.doi.org/10.1063/1.4918937 Spontaneous phase separation during self-assembly in bi-dispersed spherical iron oxide nanoparticle monolayers]'''<br/> J. Stanley, L. Boucheron, B. Lin, M. Meron,and O. G. Shpyrko, [http://dx.doi.org/10.1063/1.4918937 Appl. Phys. Lett 106, 161602, (2015).] '''54. [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Condensation of collective charge ordering in Chromium]'''<br/> A. Singer, M. J. Marsh, S. H. Dietze, V. Uhlíř, Y. Li, D. A. Walko, E. M. Dufresne, G. Srajer, M. P. Cosgriff, P. G. Evans, E. E. Fullerton, and O. G. Shpyrko, [http://journals.aps.org/prb/abstract/10.1103/PhysRevB.91.115134 Phys. Rev. B 91, 115134 (2015)] '''53. [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics In-situ strain evolution during a disconnection event in a battery nanoparticle]'''<br/> Andrew Ulvestad, Jesse Clark, Andrej Singer, David Vine, Hyung-Man Cho, Ross Harder, Ying Shirley Meng and Oleg Shpyrko, [http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp00372e#!divMetrics Physical Chemistry Chemical Physics 17, 10551 (2015)] '''52. [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Curvature-induced and thermal strain in polyhedral gold nanocrystals]'''<br/> J. W. Kim, S. Manna, S. H. Dietze, A. Ulvestad, R. Harder, E. Fohtung, E. E. Fullerton, and O. G. Shpyrko, [http://scitation.aip.org/content/aip/journal/apl/105/17/10.1063/1.4900866 Appl. Phys. Lett. 105 (17) 173108 (2014)] '''51. [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetic Properties of Co/Au Multilayers]'''<br/> C. Rizal, C. B. Moa, J. Wingert and O. G. Shpyrko, [http://ieeexplore.ieee.org/xpl/articleDetails.jsp?arnumber=6887345 Magnetics, IEEE Transactions PP, 99 (2014)] '''50. [http://pubs.acs.org/doi/abs/10.1021/nl502332b Non-equilibrium structural dynamics of nanoparticles in LiNi1/2Mn3/2O4 cathode under operando conditions]'''<br/> A. Singer, A. Ulvestad, H-M. Cho, J. W. Kim, J. Maser, R. Harder, Y. S. Meng and O. G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl502332b Nano letters 14 (9), 5295 (2014)] '''49. [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html X-ray Photon Correlation Spectroscopy at Diffraction Limited Storage Rings]'''<br/> Oleg G. Shpyrko, [http://journals.iucr.org/s/issues/2014/05/00/vv5086/index.html J. Synchr. Rad., 21 (5), 1057 (2014)] '''48. [http://pubs.acs.org/doi/abs/10.1021/nl501858u Understanding operando battery nanomechanics: lensless in-situ strain mapping via coherent x-ray diffractive imaging]'''<br/> A. Ulvestad, A. Singer, H.M. Cho, R. Harder, J. Maser, Y.S. Meng, and O.G. Shpyrko, [http://pubs.acs.org/doi/abs/10.1021/nl501858u Nano letters, 14 (9), 5123 (2014)] '''47. [http://dx.doi.org/10.1103/PhysRevB.90.165109 X-ray-induced persistent photoconductivity in vanadium dioxide]'''<br/> S. H. Dietze, M. J. Marsh, Siming Wang, J.-G. Ramírez, Z.-H. Cai, J. R. Mohanty, Ivan K. Schuller, and O. G. Shpyrko <br /> [http://dx.doi.org/10.1103/PhysRevB.90.165109 Phys. Rev. B 90, 165109 (2014)] '''46. [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Demonstration of Feasibility of X-Ray Free Electron Laser Studies of Dynamics of Nanoparticles in Entangled Polymer Melts]'''<br/> J. Carnis, W. Cha, J. Wingert, J. Kang, Z. Jiang, S. Song, M. Sikorski, A. Robert, C. Gutt, S. Chen, Y. Dai, Y. Ma, H, Guo, L. Lurio, O. Shpyrko, S. Narayanan, M. Cui, I. Kosif, T. Emrick, T. Russell, H. Lee, C Yu, G. Grübel, S. Sinha and H. Kim <br /> [http://www.nature.com/srep/2014/140811/srep06017/full/srep06017.html Scientific Reports, 4, 6017 (2014)] '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> a848c2a8ad42254bc61fcc6a0b73bd2ea141292e 1964 1963 2018-11-25T20:50:41Z Dcela 47 {| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. 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Chem. |} 585748fd45e0522978d159cf8f81a06c94660f89 1963 1962 2018-11-25T20:48:53Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date"; style="text-align: center" | Date ! Author ! class="unsortable" | Title ! style="text-align: center" | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d011ae664569c7cb13bc0156799eb6de9afd6b36 1962 1961 2018-11-25T20:48:23Z Dcela 47 {| class="wikitable sortable" border="1"; style="text-align: center" |- ! data-sort-type="date"; style="text-align: center | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 78465b1ab170525919cc14b100c50c509480553c 1961 1960 2018-11-25T20:48:11Z Dcela 47 {| class="wikitable sortable" border="1"; style="text-align: center" |- ! data-sort-type="date"; style="text-align: center | Date ! Author ! class="unsortable" | Title ! style="text-align: center | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} ece80d7ee53c035aacaba52a022872e084d91491 1960 1959 2018-11-25T20:47:39Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date"; style="text-align: center | Date ! Author ! class="unsortable" | Title ! style="text-align: center | Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 7eb5f0a2318fed07ab7519029db89213c6208b7d 1959 1958 2018-11-25T20:47:28Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date"; style="text-align: center | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 9d11e6ff428da7102cff045f094e31e54959575f 1958 1957 2018-11-25T20:46:06Z Dcela 47 {| style="text-align: center; class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d677e0ebd0057d2b2c1ff720bbefc1dd0b67daef 1957 1956 2018-11-25T20:44:51Z Dcela 47 {| class="wikitable sortable" border="1"; style="text-align: center |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} bdd2498afc69b6c71eea8bec11b771464f2ef6ed 1956 1955 2018-11-25T20:44:06Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d20583e7b71b718d274b87d92fa4199233303c87 1955 1954 2018-11-25T20:43:47Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! width = "500" | Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} ee933a7f937fb1b7a89a59a6cc4485bbe5189381 1954 1953 2018-11-25T20:43:38Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! width = "300" | Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d2c822f366a44e995e53bcf94044bbb108806990 1953 1952 2018-11-25T20:43:26Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! width = "80" | Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 0345255eabccc173314d96405127f6d1f7f3a4f7 1952 1951 2018-11-25T20:43:00Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | J. App. Phys. |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Phys. Rev. Let. |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | J. Appl. Phys. |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Adv. |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | J. Phys. Chem. Lett. |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Phys. Rev. Let. |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Phys. Rev.B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chem. Rev. |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Adv. |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Thesis, Phys., Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d20583e7b71b718d274b87d92fa4199233303c87 1951 1950 2018-11-25T20:38:21Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Phys. Rev. E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Phys. Rev. Let. |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 3e298bbbfdec6c6b1ccc418e29f22c2289b3f8c8 1950 1949 2018-11-25T20:36:15Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} beb24f6f07d594b239a37ff0968836493be4f94b 1949 1948 2018-11-25T20:28:32Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! class="unsortable" | Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} e495c94160c4d133b58576379421eb0945e46167 1948 1947 2018-11-25T20:24:04Z Dcela 47 {| class="wikitable sortable" border="1"; border-width="0" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 3354e661ccc2804e7894edce6e8207d6509813a6 1947 1946 2018-11-25T20:22:31Z Dcela 47 {| class="wikitable sortable" border="0" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} d39e2e78e1a2e60d8d70dcad0e858b047b1d020d 1946 1945 2018-11-25T20:21:51Z Dcela 47 {| |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 367de52c913680538969221d51cc6bbe157a47e4 1945 1939 2018-11-25T20:17:28Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [https://pubs.rsc.org/en/content/articlelanding/2017/nr/c7nr05028c#!divAbstract 3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} bbc57e19b140c72664e506046b65c2668a9eb0f9 1939 1938 2018-11-25T19:46:46Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | 2016-7 | Andrew Ulvestad, Kiran Sasikumar, Jong Woo Kim, Ross Harder, Evan Maxey, Jesse N. Clark, Badri Narayanan, Sanket A. Deshmukh, Nicola Ferrier, Paul Mulvaney○, Subramanian K.R.S. Sankaranarayanan, and Oleg G. Shpyrko | [https://pubs.acs.org/doi/abs/10.1021/acs.jpclett.6b01038 In Situ 3D Imaging of Catalysis Induced Strain in Gold Nanoparticles] | Journal of Physical Chemistry Letters |- | 2016-7 | A. Singer, S. K. K. Patel, R. Kukreja, V. Uhlíř, J. Wingert, S. Festersen, D. Zhu, J. M. Glownia, H. T. Lemke, S. Nelson, M. Kozina, K. Rossnagel, M. Bauer, B. M. Murphy, O. M. Magnussen, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.117.056401 Photoinduced Enhancement of the Charge Density Wave Amplitude] | Physical Review Letters |- | 2016-10 | J. W. Kim, A. Ulvestad, S. Manna, R. Harder, E. Fohtung, A. Singer, L. Boucheron, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.4965728 Observation of x-ray radiation pressure effects on nanocrystals] | Journal of Applied Physics |- | 2016-11 | A. Singer, S. K. K. Patel, V. Uhlíř, R. Kukreja, A. Ulvestad, E. M. Dufresne, A. R. Sandy, E. E. Fullerton, and O. G. Shpyrko | [https://journals.aps.org/prb/abstract/10.1103/PhysRevB.94.174110 Phase coexistence and pinning of charge density waves by interfaces in chromium] | Physical Review B |- | 2017-8 | Jong Woo Kim, Andrew Ulvestad, Sohini Manna, Ross Harder, Eric E. Fullerton and Oleg G. Shpyrko | [3D Bragg coherent diffractive imaging of five-fold multiply twinned gold nanoparticle] | Nanoscale |- | 2017-9 | Feng Lin , Yijin Liu , Xiqian Yu, Lei Cheng, Andrej Singer, Oleg G. Shpyrko, Huolin L. Xin, Nobumichi Tamura, Chixia Tian, Tsu-Chien Weng, Xiao-Qing Yang, Ying Shirley Meng○ , Dennis Nordlund, Wanli Yang, and Marca M. Doeff | [https://pubs.acs.org/doi/abs/10.1021/acs.chemrev.7b00007 Synchrotron X-ray Analytical Techniques for Studying Materials Electrochemistry in Rechargeable Batteries] | Chemical Reviews |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 9af75eae2ba75e95d3f5bd3a2333b4f32c60ba55 1938 1937 2018-11-25T19:37:09Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-10 | Roopali Kukreja, Nelson Hua, Joshua Ruby, Andi Barbour, Wen Hu, Claudio Mazzoli, Stuart Wilkins, Eric E. Fullerton, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.177601 Orbital Domain Dynamics in Magnetite below the Verwey Transition] | Physical Review Letters |- | 2016-4 | Sohini Manna1, Jong Woo Kim, Yukiko Takahashi, Oleg G. Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.4948565 Synthesis of single-crystalline anisotropic gold nano-crystals via chemical vapor deposition] | Journal of Applied Physics |- | 2016-6 | Singer, Andrej, Boucheron, Leandra, Dietze, Sebastian H Jensen, Katharine E, Vine, David, McNulty, I., Dufresne, Eric R, Prum, Richard O Mochrie, Simon G J, Shpyrko, Oleg G | [http://advances.sciencemag.org/content/2/6/e1600149 Domain morphology, boundaries, and topological defects in biophotonic gyroid nanostructures of butterfly wing scales] | Science Advances |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 3da98bfd02d6ed94601956101cd7b17facc59f4f 1937 1936 2018-11-25T19:31:10Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | 2018-5 | Leandra S. Boucheron, Jacob T. Stanley, Yeling Dai, Siheng Sean You, Christopher T. Parzyck, Suresh Narayanan, Alec R. Sandy, Zhang Jiang, Mati Meron, Binhua Lin, and Oleg G. Shpyrko | [https://journals.aps.org/pre/abstract/10.1103/PhysRevE.97.052803 Stress relaxation in quasi-two-dimensional self-assembled nanoparticle monolayers] | Physical Review E |- | 2018-5 | Andrej Singer, Juan Gabriel Ramirez, Ilya Valmianski, Devin Cela, Nelson Hua, Roopali Kukreja, James Wingert, Olesya Kovalchuk, James M. Glownia, Marcin Sikorski, Matthieu Chollet, Martin Holt, Ivan K. Schuller, and Oleg G. Shpyrko | [https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.120.207601 Nonequilibrium Phase Precursors during a Photoexcited Insulator-to-Metal Transition in V2O3] | Physical Review Letters |- | 2018-5 | J. W. Kim, S. Manna, R. Harder, J. Wingert, E. E. Fullerton, and O. G. Shpyrko | [https://aip.scitation.org/doi/abs/10.1063/1.5022328 Bragg coherent diffractive imaging of ferromagnetic nickel nanoparticles] | Journal of Applied Physics |- | 2018-8 | Oleg G. Shpyrko, Andrej Singer and Shirley Meng | [https://www.cambridge.org/core/journals/microscopy-and-microanalysis/article/coherent-xray-diffractive-imaging-of-topological-defects-in-operando-energy-storage-materials/12606C5AF56E559F22F9092E5D6A3203 Coherent X-ray Diffractive Imaging of Topological Defects in Operando Energy Storage Materials] | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} f90b820f311922479dc7ea016c21f47001016b07 1936 1935 2018-11-25T19:22:53Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2018-8 | Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. | [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] | Nature Energy |- | date | Author | Title | Publication |- | date | Author | Title | Publication |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 815b537b7882364b85e57acbecc259e63db80501 1935 1934 2018-11-25T19:22:04Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- ! 2018-8 ! Singer, A., Zhang, M., Hy, S., Cela, D., Fang, C., Wynn, T. A., Qiu, B., Xia, Y., Liu, Z., Ulvestad, A., Hua, N., Wingert, J., Liu, H., Sprung, M., Zozulya, A. V., Maxey, E., Harder, R., Meng, Y. S., Shpyrko, O. G. ! [https://www.nature.com/articles/s41560-018-0184-2 Nucleation of dislocations and their dynamics in layered oxide cathode materials during battery charging] ! Nature Energy |- ! date ! Author ! Title ! Publication |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} e95e3999509160280aa43b35ef4241f19b423685 1934 1731 2018-11-25T19:17:21Z Dcela 47 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2017-12 | Sohini Manna, Jong Woo Kim, Marko V. Lubarda, James Wingert, Ross Harder, Fred Spada, Vitaliy Lomakin, Oleg Shpyrko, and Eric E. Fullerton | [https://aip.scitation.org/doi/abs/10.1063/1.5004577 Characterization of strain and its effects on ferromagnetic nickel nanocubes] | AIP Advances |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 5c32018e4b6d43077ec45719e97fba9d2d300d5e 1731 1687 2015-10-19T18:01:39Z Sebastian 30 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2015-11 | S. H. Dietze and O. G. Shpyrko | [http://dx.doi.org/10.1107/S1600577515017336 Coherent diffractive imaging: towards achieving atomic resolution] | J. Synchrotron Rad. |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} 86294b4b7bcbe354f252ba24839b23a53c221ab6 1687 1686 2014-07-02T07:35:57Z Sebastian 30 moved [[PublicationsCitations]] to [[PublicationsTabular]]:&#32;Old Page was repeat of existing {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} c701df1766429933a55477133b58f8f26e2da340 1686 1684 2014-07-02T07:34:33Z Sebastian 30 {| class="wikitable sortable" border="1" |- ! data-sort-type="date" | Date ! Author ! Title ! Publication |- | 2012-11 | J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton | [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2] | Phys. Rev. B |- | 2012-09 | S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss | [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography] | Nano Lett. |- | 2012-07 | E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko | [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires] | Appl. Phys. Lett. |- | 2012-05 | J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs | [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films] | Appl. Phys. Lett. |- | 2011-11 | Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin | [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface] | J. Appl. Phys. |- | 2011-11 | Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko | [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity] | J. Appl. Phys. |- | 2011-07 | Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, | [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging] | Proc. Natl. Acad. Sci. |- | 2011-06 | S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. | [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography] | Opt. Lett. |- | 2011-04 | M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov | [http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ] | Phys. Rev. B. |- | 2010-10 | S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner | [http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect] | Phys. Rev. Lett. |- | 2009-12 | O. G. Shpyrko | [http://www.mhprofessional.com/product.php?isbn=0071782982 Local Structural Probes] | McGraw Hill 2010 Yearbook of Science & Technology |- | 2009-09 | P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron | [http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity] | Phys. Rev. B |- | 2009-03 | P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel | [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] | Phys. Rev. B |- | 2009-02 | M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov | [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] | Phys. Rev. B |- | 2007-12 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] | Phys. Rev. B |- | 2007-09 | Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum | [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet] | Phys. Rev. Lett. |- | 2007-05 | O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy | [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations] | Nature |- | 2007-06 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin] | Phys. Rev. Lett. |- | 2007-03 | V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin | [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn] | Phys. Rev. B |- | 2007-03 | R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai | [http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains] | Phys. Rev. Lett. |- | 2006-10 | K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell | [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays] | Phys. Rev. Lett. |- | 2006-07 | O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan | [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy] | Science |- | 2006-03 | K. J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang | [http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina] | Phys. Rev. B |- | 2005-09 | O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch | [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ] | Phys. Rev. Lett. |- | 2005-02 | A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt | [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin] | Surf. Sci. |- | 2006-01 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v73/e019901 Erratum: Anomalous layering at the liquid Sn surface] | Phys. Rev. B |- | 2004-12 | O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch | [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface] | Phys. Rev. B |- | 2004-06 | O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko | [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] | Phys. Rev. B |- | 2003-12 | O. G. Shpyrko | [http://arxiv.org/abs/cond-mat/0407333 Experimental X-ray Studies of Liquid Surfaces] | Ph.D. Thesis, Physics Department, Harvard University |- | 2003-03 | O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch | [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations] | Phys. Rev. B |- | 2003-08 | P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch | [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory] | Phys. Rev. B |- | 2002 | P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch | [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point] | Colloids Surf., A |- | 2002-06 | P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch | [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi] | Phys. Rev. Lett. |- | 2001-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman | [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study] | Phys. Rev. Lett. |- | 2000 | E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman | [http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy] | MRS Proceedings |- | 2000-05 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch | [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys] | Phys. Rev. Lett. |- | 2000-03 | H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals] | Phys. Rev. B |- | 2000-02 | E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko | [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys] | J. Phys.: Condens. Matter |- | 1999-01 | H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch | [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium] | Phys. Rev. B |- | 1998-08 | H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch | [http://onlinelibrary.wiley.com/doi/10.1002/bbpc.19981020913/abstract Surface Phases in Binary Liquid Metal Alloys: an X-ray Study] | Ber. Bunsenges. Phys. Chem. |} c701df1766429933a55477133b58f8f26e2da340 1684 1681 2014-04-17T06:57:10Z Sebastian 30 '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)] 012a2915d2ab185acaeafa81cd65f619c5072452 1681 1678 2014-04-17T06:50:32Z Sebastian 30 '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)] ccb8e00b301788986e0ef79a0fc2e527a867a024 1678 2014-04-17T06:32:08Z Sebastian 30 Created page with ' '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J.…' '''45. [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Nanoscale strain mapping in battery nanostructures]'''<br/>A. Ulvestad, H. M. Cho, R. Harder, J. W. Kim, S. H. Dietze, E. Fohtung, Y. S. Meng and O. G. Shpyrko <br /> [http://scitation.aip.org/content/aip/journal/apl/104/7/10.1063/1.4866030 Appl. Phys. Lett. 104, 073108 (2014)] '''44. [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Ptychographic overlap constraint errors and the limits of their numerical recovery using conjugate gradient descent methods]'''<br/> A. Tripathi, I. McNulty, and O. G. Shpyrko<br /> [http://www.opticsinfobase.org/oe/abstract.cfm?uri=oe-22-2-1452 Optics Express, 2 (2), 1452 (2014)] '''43. [http://pubs.acs.org/doi/abs/10.1021/la403252d Synchrotron X-ray Studies of Rapidly Evolving Morphology of Self-Assembled Nanoparticle Films under Lateral Compression]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy, Thomas A. Witten, and Oleg G. Shpyrko<br /> [http://pubs.acs.org/doi/pdf/10.1021/la403252d Langmuir, 29 (46), 14050 (2013)] '''42. [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Metastability and microscopic avalanche dynamics in charge-density waves of chromium]'''<br/> H.C. Kim, J.M. Logan, O. G. Shpyrko, P.B. Littlewood and E. D. Isaacs <br /> [http://prb.aps.org/pdf/PRB/v88/i14/e140101 Phys. Rev. B 88, 140101(R) (2013)] '''41. [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Ferromagnetism in partially oxidized CuCl]'''<br/> Thomas Saerbeck, Juan Pereiro, James Wampler, Jacob Stanley, James Wingert, Oleg G. Shpyrko and Ivan K. Schuller<br /> [http://www.sciencedirect.com/science/article/pii/S0304885313005210 Journal of Magnetism and Magnetic Materials, 346, 161–165, (2013)] '''40. [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Capillary wave dynamics of thin polymer films over submerged nanostructures]'''<br/> K. J. Alvine, Y. Dai, H. Ro, C. L. Soles, S. Narayanan, A. R. Sandy and O. G. Shpyrko, <br /> [http://prl.aps.org/abstract/PRL/v109/i20/e207801 Phys. Rev. Lett. 109, 207801 (2012)] '''39. [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Collective pinning dynamics of charge density waves in 1T-TaS2]'''<br/>J.-D. Su, A. R. Sandy, J. Mohanty, O. G. Shpyrko and M. Sutton, <br /> [http://prb.aps.org/abstract/PRB/v86/i20/e205105 Phys. Rev. B 86, 205105 (2012)] '''38. [http://pubs.acs.org/doi/abs/10.1021/nl303201w Quantitative imaging of lattice distortions in epitaxial semiconductor heterostructures using x-ray Bragg ptychography]'''<br/> S. O. Hruszkewycz, M. V. Holt, C. E. Murray, J. Bruley, J. Holt, A. Tripathi, O. G. Shpyrko, I. McNulty, M. J. Highland, P. H. Fuoss, <br /> [http://pubs.acs.org/doi/abs/10.1021/nl303201w Nano Lett. 12, 5148 (2012)] '''37. [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Probing the 3D strain inhomogeneity and equilibrium elastic properties of single crystal Ni nanowires]'''<br/> E. Fohtung, J. W. Kim, Keith T. Chan, Ross Harder, Eric E. Fullerton, and O. G. Shpyrko <br /> [http://apl.aip.org/resource/1/applab/v101/i3/p033107_s1 Appl. Phys. Lett. 101, 033107 (2012)] '''36. [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Antiferromagnetic domain wall engineering in chromium films]'''<br/> J. M. Logan, H. C. Kim, D. Rosenmann, Z. Cai, R. Divan, O. G. Shpyrko and E. D. Isaacs <br /> [http://apl.aip.org/resource/1/applab/v100/i19/p192405_s1 Appl. Phys. Lett. 100, 192405 (2012)] '''35. [http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no Governing Factors in Stress Response of Nanoparticle Films on Water Surface]'''<br/> Kyungil Kim, Brian D. Leahy, Yeling Dai, Oleg Shpyrko, Janet S Soltau, Matthew Pelton, Mati Meron, Binhua Lin,<br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102218_s1?isAuthorized=no J. Appl. Phys. 110, 102218 (2011)] '''34. [http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no A comparative study of Langmuir Surfactant Films: Grazing Incidence X-ray Off-Specular Scattering vs. X-ray Specular Reflectivity]'''<br/> Yeling Dai, Binhua Lin, Mati Meron, Kyungil Kim, Brian Leahy and Oleg G. Shpyrko, <br /> ''[http://jap.aip.org/resource/1/japiau/v110/i10/p102213_s1?isAuthorized=no J. Appl. Phys. 110, 102213 (2011)] '''33. [http://www.pnas.org/content/early/2011/08/01/1104304108.abstract Dichroic Coherent Diffractive Imaging]'''<br/> Ashish Tripathi, J. Mohanty, S. Dietze, O. G. Shpyrko, E. Shipton, E. Fullerton, S.S. Kim and Ian McNulty, <br /> ''[http://www.pnas.org/content/early/2011/08/01/1104304108 Proc. Natl. Acad. Sci. U S A, 108(33), 13393-8 (2011)] '''32.''' '''[http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 Framework for three-dimensional coherent diffraction imaging by focused beam x-ray Bragg ptychography]'''<br /> S. O. Hruszkewycz, M. V. Holt, Ash Tripathi, et al. <br /> [http://www.opticsinfobase.org/abstract.cfm?URI=ol-36-12-2227 ''Optics Letters'', 36, 12, 2227 (2011) ] '''31.''' '''[http://prb.aps.org/abstract/PRB/v83/i16/e165108 Nanoscale imaging of the electronic and structural transitions in vanadium dioxide ]'''<br /> M. M. Qazilbash, A. Tripathi, A. A. Schafgans, Bong-Jun Kim, Hyun-Tak Kim, Zhonghou Cai, M. V. Holt, J. M. Maser, F. Keilmann, O. G. Shpyrko, and D. N. Basov <br /> [http://prb.aps.org/abstract/PRB/v83/i16/e165108 ''Phys. Rev. B.'' 83, 165108 (2011)] '''30.''' '''[http://prl.aps.org/pdf/PRL/v105/i18/e186101 Self-Consistent Interpretation of the 2D Structure of the Liquid Au₈₂Si₁₈ Surface: Bending Rigidity and the Debye-Waller Effect]'''<br /> S. Mechler, P. S. Pershan, E. Yahel, S. E. Stoltz, O. G. Shpyrko, B. Lin, M. Meron, and S. Sellner <br /> [http://prl.aps.org/pdf/PRL/v105/i18/e186101 ''Phys. Rev. Lett.'' 105, 186101 (2010)] '''29.''' '''[http://www.mhprofessional.com/product.php?isbn=0071639284 Local Structural Probes]'''<br /> O. G. Shpyrko, <br /> [http://www.mhprofessional.com/product.php?isbn=0071639284 McGraw Hill 2010 Yearbook of Science & Technology] (2010) '''28.''' '''[http://link.aps.org/abstract/PRB/v80/e125414 Surface Structure of the Liquid Au₇₂Ge₂₈ Eutectic Phase: X-ray Reflectivity]'''<br /> P. S. Pershan, S. E. Stoltz, S. Mechler, O. G. Shpyrko, A. Y. Grigoriev, V. S. K. Balagurusamy, B. H. Lin and M. Meron <br /> [http://link.aps.org/abstract/PRB/v80/e125414 ''Phys. Rev. B'' 80, 125414 (2009)] '''27.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.115417 Surface structure of liquid Bi and Sn: An x-ray reflectivity study ] '''<br /> P. S. Pershan, Sven Stoltz, Oleg G. Shpyrko, Moshe Deutsch, V. S. K. Balagurusamy, M. Meron, Binhua Lin and Reinhard Streitel <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.115417 ''Phys. Rev. B'' 79, 115417 (2009)] '''26.''' ''' [http://link.aps.org/doi/10.1103/PhysRevB.79.075107 Infrared spectroscopy and nano-imaging of the insulator-to-metal transition in vanadium dioxide ] '''<br /> M. M. Qazilbash, M. Brehm, G. O. Andreev, A. Frenzel, P.-C. Ho, Byung-Gyu Chae, Bong-Jun Kim, Sun Jin Yun, Hyun-Tak Kim, A. V. Balatsky, O. G. Shpyrko, M. B. Maple, F. Keilmann, and D. N. Basov <br />[http://link.aps.org/doi/10.1103/PhysRevB.79.075107 ''Phys. Rev. B'' 79, 075107 (2009)] '''25.''' ''' [http://link.aps.org/abstract/PRB/v76/e245436 Crystalline Surface Phases of the Liquid Au-Si Eutectic Alloy ] '''<br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br />[http://link.aps.org/abstract/PRB/v76/e245436 ''Phys. Rev. B'' 76, 245436 (2007)] '''24.''' ''' [http://link.aps.org/abstract/PRL/v99/e137201 Pressure-Tuned Spin and Charge Ordering in an Itinerant Antiferromagnet]'''<br /> Y. Feng, R. Jaramillo, G. Srajer, J. C. Lang, Z. Islam, M. S. Somayazulu, O. G. Shpyrko, J. J. Pluth, H.-k. Mao, E. D. Isaacs, G. Aeppli, T. F. Rosenbaum <br />[http://link.aps.org/abstract/PRL/v99/e137201 ''Phys. Rev. Lett.'' '''99''', 137201 (2007) ] '''23.''' '''[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Direct measurement of antiferromagnetic domain fluctuations]'''<br /> O. G. Shpyrko, E. D. Isaacs, J. M. Logan, Yejun Feng, G. Aeppli, R. Jaramillo, H. C. Kim, T. F. Rosenbaum, P. Zschack, M. Sprung, S. Narayanan and A. R. Sandy <br />[http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html ''Nature'' '''447''', 68 (2007)</font>] '''22.''' '''[http://link.aps.org/abstract/PRL/v98/e259602 A Reply to the Comment by Frederic Caupin]'''<br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v98/e259602 ''Phys. Rev. Lett.'' '''98''', 259602 (2007)] '''21.''' ''' [http://link.aps.org/abstract/PRB/v75/e104209 X-ray Reflectivity Studies of Atomic-level Surface-segregation in a Liquid Eutectic Alloy of AuSn]'''<br /> V. S. K. Balagurusamy, R. Streitel, O. G. Shpyrko, P. S. Pershan, M. Meron, B. Lin <br />[http://link.aps.org/abstract/PRB/v75/e104209 ''Phys. Rev. B'' '''75''', 104209 (2007)] '''20.''' '''[http://link.aps.org/abstract/PRL/v98/e117206 Microscopic and Macroscopic Signatures of Antiferromagnetic Domains]'''</font><br /> R. Jaramillo, T. F. Rosenbaum, E. D. Isaacs, O. G. Shpyrko, P. G. Evans, G. Aeppli, Z. Cai <br />[http://link.aps.org/abstract/PRL/v98/e117206 ''Phys. Rev. Lett.'' '''98''', 117206 (2007)] '''19.''' ''' [http://link.aps.org/abstract/PRL/v97/e175503 Capillary filling of anodized alumina nanopore arrays]'''</font><br /> K. J. Alvine, O. G. Shpyrko, P. S. Pershan, K. Shin and T. P. Russell <br />[http://link.aps.org/abstract/PRL/v97/e175503 ''Phys. Rev. Lett.'' '''97''', 175503 (2006)] ''' 18. ''' ''' [http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf Surface Crystallization in a Liquid AuSi Alloy]'''</font><br /> O. G. Shpyrko, R. Streitel, V. S. K. Balagurusamy, A. Yu. Grigoriev, M. Deutsch, B. M. Ocko, M. Meron, B. Lin and P. S. Pershan <br /> [http://www.sciencemag.org/cgi/content/abstract/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci ''Science'' ''' 313''', 77 (2006)]</font> [[http://www.sciencemag.org/cgi/content/full/313/5783/77?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci HTML]] [[http://www.sciencemag.org/cgi/reprint/313/5783/77.pdf?ijkey=b0mMDXukHR5m6&keytype=ref&siteid=sci.pdf PDF]] ''' 17. '''<font size="-1">'''[http://dx.doi.org/10.1103/PhysRevB.73.125412 Solvent Mediated Assembly of Nanoparticles Confined in Mesoporous Alumina]'''</font><br /> Kyle J. Alvine, Diego Pontoni, Oleg G. Shpyrko, Peter S. Pershan, David J. Cookson, Kyusoon Shin, Thomas P. Russell, Markus Brunnbauer, Francesco Stellacci and Oleg Gang<br />[http://dx.doi.org/10.1103/PhysRevB.73.125412 ''Phys. Rev. B '' '''73''', 125412 (2006)] ''' 16.''' ''' [http://link.aps.org/abstract/PRL/v95/e106103 Surface-induced atomic scale demixing in BiSn liquid alloy ]<br />''' O. G. Shpyrko, A. Grigoriev, R. Streitel, D. Pontoni, P.S. Pershan, B.M. Ocko, M. Deutsch<br />[http://link.aps.org/abstract/PRL/v95/e106103 ''Phys. Rev. Lett. '' '''95''', 106103 (2005)] '''15. ''' ''' [http://dx.doi.org/10.1016/j.susc.2004.10.034 Surface Oxidation of Liquid Tin]<br />''' A. Grigoriev, O. G. Shpyrko, C. Steimer, P.S. Pershan, B.M. Ocko, M. Deutsch, B. Lin, M. Meron, T. Graber and J. Gebhardt <br />[http://dx.doi.org/10.1016/j.susc.2004.10.034 ''Surf. Sci.'' '''575''', 3, 223 (2005)] [[http://arxiv.org/cond-mat/0407313 cond-mat/0407313]] ''' 14. ''' ''' [http://link.aps.org/abstract/PRB/v70/e224206 Anomalous Layering at the Liquid Sn Surface]<br />''' O. G. Shpyrko, A. Yu. Grigoriev, C. Steimer, P.S. Pershan, B. Lin, M. Meron, T. Graber, J. Gebhardt, B. Ocko and M. Deutsch <br />[http://link.aps.org/abstract/PRB/v70/e224206 '' Phys. Rev. B'', '''70''', 224206 (2004) ] (also [http://link.aps.org/abstract/PRB/v73/e019901 ''Phys. Rev. B '' '''73''', 019901 (2006)]) [[http://arXiv.org/cond-mat/0406583 cond-mat/0406583]] '''13.''' ''' [http://link.aps.org/abstract/PRB/v69/e245423 Surface Layering of Liquids: The Role of Surface Tension] '''<br /> O. G. Shpyrko, M. Fukuto, P.S. Pershan, B.M. Ocko, M. Deutsch and I. Kuzmenko<br />[http://link.aps.org/abstract/PRB/v69/e245423 ''Phys. Rev. B '' '''69''' 245423, (2004)] [[http://arxiv.org/cond-mat/0406579 cond-mat/0406579]] '''12.''' '''[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html Experimental X-ray Studies of Liquid Surfaces]'''<br />''' O. G. Shpyrko, <br />[http://liquids.deas.harvard.edu/oleg/Thesis_html/thesis.html ''Ph.D. Thesis'', Department of Physics, Harvard University (2004)] '''11.''' ''' [http://link.aps.org/abstract/PRB/v67/e115405 X-ray Study of the Liquid Potassium Surface: Structure and Capillary Wave Excitations]<br />''' O. G. Shpyrko, P. Huber, P.S. Pershan, B.M. Ocko, H. Tostmann, A. Grigoriev and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v67/e115405 ''Phys. Rev. B '' '''67''', 115405 (2003)]</font> '''10.''' ''' [http://link.aps.org/abstract/PRB/v68/e085409 Short-Range Wetting at Liquid Gallium-Bismuth Alloy Surfaces: X-ray Reflectivity Measurements and Square Gradient Theory]<br />''' P. Huber, O. G. Shpyrko, P.S. <span class="SpellE">Pershan</span>, B.M. <span class="SpellE">Ocko</span>, E. <span class="SpellE">DiMasi</span>, M. Deutsch<br />[http://link.aps.org/abstract/PRB/v68/e085409 ''Phys. Rev. B '' '''68''', 085409 (2003)] ''' 9.''' ''' [http://arXiv.org/cond-mat/0406659 Wetting at the Free Surface of a Liquid Gallium-Bismuth Alloy: An X-ray Reflectivity Study Close to the Bulk Monotectic Point]<br />''' P. Huber, O. Shpyrko, P.S. Pershan, E. DiMasi, B.M. Ocko, H. Tostmann and M. Deutsch<br />[http://arXiv.org/cond-mat/0406659 ''Colloids & Surfaces A. '' '''206''', 515 (2002)] '''8. ''' ''' [http://link.aps.org/abstract/PRL/v89/e035502 Tetra Point Wetting at the Free Surface of Liquid Ga-Bi]<br />''' P. Huber, O. G. Shpyrko, P.S. Pershan, B.M. Ocko, E. DiMasi, and M. Deutsch<br />[http://link.aps.org/abstract/PRL/v89/e035502 ''Phys. Rev. Lett. '' '''89''', 035502 (2002)] '''7.''' ''' [http://link.aps.org/abstract/PRL/v86/p1538 Pairing Interactions and Gibbs Adsorption at the Liquid Bi-In Surface: a Resonant X-ray Reflectivity Study]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, P. Huber, B. M. Ocko, P. S. Pershan, M. Deutsch, L. E. Berman<br />[http://link.aps.org/abstract/PRL/v86/p1538 '' Phys. Rev. Lett. '' '''86''', 1538 (2001)] '''6.''' '''[http://arXiv.org/cond-mat/0412113 Resonant X-Ray Scattering from the Surface of a Dilute Hg-Au Alloy]<br />''' E. DiMasi, H. Tostmann, B.M. Ocko, P. Huber, O. G. Shpyrko, P.S. Pershan, M. Deutsch and L.E. Berman<br />[http://arXiv.org/cond-mat/0412113 ''Mat. Sci. '' V Vol. '''590''', Eds. Mini, Perry and Stock, MRS (2000)] '''5.''' ''' [http://link.aps.org/abstract/PRL/v84/p4385 Microscopic Structure of the Wetting Film at the Surface of Liquid Ga-Bi Alloys]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P.S. Pershan, B.M. Ocko and M.Deutsch,<br />[http://link.aps.org/abstract/PRL/v84/p4385 ''Phys. Rev. Lett. '' '''84''', 4285 (2000) ] '''4.''' ''' [http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 Surface Induced Order in Liquid Metals and Binary Alloys]<br />''' E. DiMasi, H. Tostmann, O. G. Shpyrko, M. Deutsch, P.S. Pershan and B.M. Ocko,<br />[http://www.iop.org/EJ/abstract/0953-8984/12/8A/325 ''J. Phys.: Condens. Matter '' '''12''', A209 (2000)] '''3.''' ''' [http://link.aps.org/abstract/PRB/v61/p7284 Microscopic Surface Structure of Liquid Alkali Metals]<br />''' H. Tostmann, E. DiMasi, P. S.Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v61/p7284 ''Phys. Rev. B '' '''61''', 7284 (2000)] '''2.''' ''' [http://link.aps.org/abstract/PRB/v59/p783 Surface Structure of Liquid Metals and the Effect of Capillary Waves: X-Ray Studies on Liquid Indium]<br />''' H. Tostmann, E. DiMasi, P.S. Pershan, B.M. Ocko, O. G. Shpyrko and M. Deutsch<br />[http://link.aps.org/abstract/PRB/v59/p783 ''Phys. Rev. B '' '''59''', 783 (1999)] '''1.''' ''' [http://arXiv.org/cond-mat/0412112 Surface Phases in Binary Liquid Metal Alloys: an X-ray Study]<br />''' H. Tostmann, E. DiMasi, O. G. Shpyrko, P. S. Pershan, B. M. Ocko and M. Deutsch<br />[http://arXiv.org/cond-mat/0412112 ''Ber. Bunsen. Phys. Chem. '' '''102''', 1136 (1999)]</font> 38ebd813b99525475482fe06c2b9f54783449bcb 0 973 3571 2865 2025-03-08T18:34:06Z Samstanwyck 12 Unleash Your Inner Champion with Punch Boxing 3D Cheats! 🥊 Ready to dominate the ring? With Punch Boxing 3D Cheats, you can take your game to the next level! Our Punch Boxing 3D Coins Cash Generator will have you rolling in rewards in no time. Say goodbye to endless grinding and hello to victory! 🌟 Why Choose Punch Boxing 3D Cheats 2024? No Human Verification: No more annoying surveys or verifications. Easy to Use: Get your cheats up and running in minutes. 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It is very important to know the magnetic structure in order to understand the magnetic device. For example, we want to know how a magnetic device behaves in presence of magnetic field or what if we put two magnetic elements in close proximity, how does the magneto-resistance (GMR effect) behavior changes in different nano-element. All these questions are related to the magnetic structure of the sample or device. There are different energies acting in a magnetic system these are due to exchange anisotropy, shape anisotropy, magneto-crystalline anisotropy, magneto-striction, self-energy of the system. As a result of the competition between the different energies magnetic system breaks into regions of constant magnetization called magnetic domains separated by domain walls where magnetization change from one direction to the other. Magnetic domains are important part of the magnetic system and one need to understand how these domain forms and how can we see them with better spatial and temporal resolution. Advancement of nano-science allows us to prepare structure in nanometer scale both by self-assembly and electron beam lithography. When physical dimension of the system becomes comparable to length scale of the system then one starts to see new phenomena. For an example, magnetic particles or lithographically patterned thin film elements that are smaller than a domain wall width might be expected to be in a single domain state. There are many different imaging techniques one can use to see these domains and study their dynamics. </font></font> In an ideal case magnetic imaging technique should provide the following: </font></font> * '''Resolution:''' Nearly atomic resolution both laterally and as a function of depth. * '''Dynamics:''' Fast enough to follow the magnetization dynamics on a timescale comparable to that of the spin precession. * '''Environment:''' Image the magnetization in the magnetic field, at different temperature. * '''Visibility:''' Image the magnetization in devices that may be buried under non-magnetic layers or deposited on top of complex structures. Should be able to see the interface between layers. * '''Non-invasive:'''Imaging must be done without disturbing the magnetic structure of the device. * '''Quantitative Information:''' Should provide orbital and spin component of the magnetization and also the magnetization distribution. * '''Element Specific:'''Should provide information on each element in the system. No single, current imaging technique can satisfy all of these demands. In order to get a more complete picture of the magnetic structure, therefore, multiple complementary imaging methods should be used.</font></font> In our current research we are studying magnetic domains using [http://en.wikipedia.org/wiki/Magnetic_force_microscope Magnetic Force Microscopy] (MFM), [http://en.wikipedia.org/wiki/PEEM Photo electron emission microscopy] (PEEM) utilizing [http://en.wikipedia.org/wiki/XMCD X-ray Magnetic Circular Dichroism] (XMCD) and Coherent Resonant Magnetic Scattering.</font></font> [[#TOP|[top]]] ''' Further Reading: </font></font>''' (Books) </font></font> 1. [http://www.amazon.com/Magnetic-Domains-Analysis-Microstructures/dp/3540641084/ref=sr_1_1?ie=UTF8&s=books&qid=1240355744&sr=1-1 Magnetic Domains: The Analysis of Magnetic Microstructures by Alex Hubert and Rudolf Schafer] </font></font> [http://www.amazon.com/Modern-Techniques-Characterizing-Magnetic-Materials/dp/1402080077 2. Modern techniques for characterizing magnetic materials, edited by Yimei Zhu]</font></font> 3. </font></font> Magnetic Imaging and Its Applications to Materials Edited by Marc De Graef and Yimei Zhu</font></font> 4. Magnetic Microscopy of Nanostructures Edited by H. Hopster H.P. Oepen</font></font> 5. Magnetism From Fundamentals to Nanoscale Dynamics by J. Stoehr and H.C. Siegman</font></font> [[#TOP|[top]]] {| | style="PADDING-RIGHT: 10.4pt; PADDING-LEFT: 5.4pt; PADDING-BOTTOM: 10pt; WIDTH: 226px; PADDING-TOP: 5pt" valign="top" | [[Image:magdom1.jpg]]Magnetic Force Microscopy (MFM) images of magnetic domains in MnAs on GaAs | valign="top" | ''' Magnetism with Scanning Probes</font></font>''' MFM serves as an experimental tool for mapping the magnetic domain structure using a ferromagnetically coated cantilever. MFM is based on non-contact atomic force microscopy (NC-AFM) and images the spatial variation of the out-of-plane component of the magnetic stray field of the sample surface. This is achieved by detecting changes in the resonant frequency of the cantilever induced by the magnetic field dependence of the tip-to-sample separation. For MFM operation, the non-contact AFM tip is coated with a ferromagnetic thin film (20 nm Cr and 60 nm Co), where Cr is used as an oxidation protection layer. Usually, the tip is magnetized along its axis. Hence, MFM is primarily sensitive to the out-of-plane magnetization component of the magnetic stray field of the sample. </font></font> |} Measuring the sample's stray field from greater distances effectively decreases the sensitivity of the measured magnetization, as it varies inversely proportional to the distance. Therefore, the highest spatial resolution is obtained for the smallest tip-to-sample distances. Experimentally, however, the minimum tip-to-sample distance is limited by the relative strength of the magnetic interaction force with respect to the van der Waals and also to short range forces that play a role at distances closer to the sample. A typical image recorded with a MFM contains information about both the topography and the magnetic properties of a surface. Which effect dominates in the image depends upon the distance of the tip from the surface, because the magnetic force persists for greater tip-to-sample separations (far-field regime) than the van der Waals force. If the tip is close to the surface (near-field regime), where standard NC-AFM is operated, the image will be predominantly show topographic features. Key to understand MFM is to identify the force or force gradient term that is dominant in a given tip-to-sample distance regime. MnAs films grown on GaAs (001) show a periodic array of stripes (stretched along the a-axis direction) of ferromagnetic </font></font><font face="Symbol">a</font>- phase and paramagnetic</font></font> <font face="Symbol">b</font> -phase in an alternating arrangement. MnAs exhibits a first-order phase transition from the hexagonal, ferromagnetic</font></font> <font face="Symbol">a</font><font face="Comic Sans MS">-phase to the orthorhombic, paramagnetic </font><font face="Symbol">b</font> -phase at around 40^oC. In epitaxial MnAs films on GaAs, it is known that the ferromagnetic and the paramagnetic phases coexist over a wide temperature range of about 30^oC below the phase transition temperature. In this temperature range, MnAs films on GaAs (001) and (311)A substrates show a regular array of ferromagnetic stripes due to the involved strain. Figure shows the topographic contrast measured by AFM [top left]. The corresponding MFM image of the same scan area [bottom left] shows magnetic contrast on the ferromagnetic stripes that appear as ridges in the topographic image. The right bottom of the figure shows the zoom in part of the MFM scan. A number of different domain structures are visible on the ferromagnetic stripes. In order to understand the typical MFM contrast for simple domain structures, we consider bar magnet-like domains. Top right of the figure shows sketches to explain the contrast mechanism resulting from the interaction of the tip magnetization with the stray field of the domains. The ferromagnetic stripe is assumed to be divided into oppositely oriented bar magnets along the total width of the ferromagnetic stripe. This assumption is justified as this material has one easy magnetization direction along the width of the stripe. The magnetic stray field of the bar magnet-like domains will either point up (out-of the plane) or point down (back into the plane) at the end of the ferromagnetic stripe, as shown by arrows in the top right sketch in the figure. The MFM is sensitive to these out-of-plane components which interact with the tip magnetization. The interaction between the tip and the stray field of the sample depends on the relative orientation of these two vectors. The parallel (antiparallel) orientation of the two magnetization vectors results in an attractive (repulsive) interaction, giving a bright (dark) contrast. [[#TOP|[top]]] </font></font> {| | style="PADDING-RIGHT: 10.4pt; PADDING-LEFT: 5.4pt; PADDING-BOTTOM: 10pt; WIDTH: 226px; PADDING-TOP: 5pt" valign="top" | <br />[[Image:magdom2.jpg]]Low Energy Electron Microscopy (LEEM) and X-ray Magnetic Circular Dichroism (XMCD) and photoemission electron microscopy (PEEM) of MnAs on GaAs. | valign="top" | ''' X-ray Magnetic Dichroism</font></font>''' XMCDPEEM combines two techniques, namely X-ray magnetic circular dichroism (XMCD) and photoemission electron microscopy (PEEM). The absorption intensity of circularly polarized X-rays by a ferromagnetic material is different for parallel and antiparallel alignment of the magnetization direction and the polarity of the incident photon spin. This phenomenon is known as XMCD. As a result of the X-ray absorption, secondary electrons are emitted from the sample. </font></font> |} An electron microscope (a so-called PEEM) is used to analyze the secondary electrons. The combination of the two techniques results in the formation of a micromagnetic image of the ferromagnetic material. As high-intensity X-rays utilize absorption edges due to the electronic excitation from core levels to the empty levels, XMCD results in the detection of spin and orbital moments in an element-specific way. Figure shows 500 nm thick MnAs film on GaAs (001) imaged with LEEM and XMCDPEEM showing the topography and magnetic contrast, respectively. The magnified domain pattern on the right shows the two antiparallel magnetization directions in </font></font><font face="Symbol"> a</font></font> -MnAs giving rise to black and white contrast. The arrows and the wavy line indicate the direction of the magnetization axes and photon wave vector (along the magnetic easy axis [a-axis] direction of MnAs). For XMCDPEEM imaging, the secondary electrons resulting from the photo-ionization of the Mn L₃level with a photon energy of 639.5 eV are used. The LEEM image is obtained with 4.5 eV electrons. Depending on the relative orientation of the sample magnetization and photon wave vector either black or white contrast can be seen, which is shown in the magnified domain pattern in the figure. The gray contrast is due to the paramagnetic </font></font><font face="Symbol"> b</font></font> -MnAs. The topographic LEEM contrast is a result of the height difference between the stripes of different MnAs phase composition. We have obtained interesting results which when compared to MFM measurements indicates the presence of in-depth domain in these films. </font></font> Related Publications: Jyoti Mohanty et.al, </font></font> <font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000082000014002308000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. Lett. 82, 2308-2310 (2003)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> , </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://www.springerlink.com/content/h0710tcyyglnrfnp/?p=09da6cf14bee4534acd875243c63e648&pi=3 <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. A 77, 739-742 (2003)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> , </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002829000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. Lett. 83, 2829-2831 (2003)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> , </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000083000014002850000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. Lett. 83, 2850-2852 (2003)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=APPLAB000084000007001132000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. Lett. 84, 1132 (2004)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6VMT-4CG2P3R-8&_user=10&_coverDate=08/31/2004&_rdoc=31&_fmt=summary&_orig=browse&_srch=doc-info(#toc#6159#2004#999759998#511036#FLA#display#Volume)&_cdi=6159&_sort=d&_docanchor=&view=c&_ct=40&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=3a7f168d01cf3a2cbabcb542bd434665 <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Physica E 24, 115 (2004)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000096000009005056000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> J. Appl. Phys. 96, 5056 (2004)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://www.springerlink.com/content/t17481uh18570158/?p=3f70bfbe2e1c4921bf79b78333f8eb12&pi=5 <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Appl. Phys. A 81, 1359 (2005)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000001013907000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> J. Appl. Phys. 98, 013907 (2005)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . [http://scitation.aip.org/vsearch/servlet/VerityServlet?KEY=JVTBD9&ONLINE=YES&smode=strresults&sort=chron&maxdisp=25&threshold=0&possible1zone=article&possible4=Mohanty,J&possible4zone=author&bool4=and&OUTLOG=NO&viewabs=JVTBD9&key=DISPLAY&docID=1&page=1&c J. Vac. Sci. Technol. B 23, 1759 (2005).]<span style="mso-spacerun: yes"> </span></font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=JAPIAU000098000006063909000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> J. Appl. Phys. 98, 063909 (2005)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=PRBMDO000073000010104441000001&idtype=cvips&gifs=yes <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> Phys. Rev. B. 73, 104441 (2006)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> . </font></font></span><font face="&quot;Comic Sans MS&quot;">[http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6TJJ-4JDMMW5-14&_user=10&_coverDate=10/31/2006&_rdoc=34&_fmt=summary&_orig=browse&_srch=doc-info(#toc#5312#2006#996949997#630947#FLA#display#Volume)&_cdi=5312&_sort=d&_docanchor=&view=c&_ct=50&_acct=C000050221&_version=1&_urlVersion=0&_userid=10&md5=0b2c67307fa6b0fb6d13c2069a9cbe6a <span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"> J. Magn. Magn. Mater. 305, 457 (2006)</font></span>]</font><span style="mso-bidi-font-family: Arial; mso-bidi-font-style: italic"><font face="&quot;Comic Sans MS&quot;"> .[http://www.springerlink.com/content/k3268vv37433q60h/?p=308cdf5270124b06a4073606abe3d75d&pi=0 Appl. Phys. A 84, 231 (2006)]. </font></font></span><font face="&quot;Comic Sans MS&quot;"></font> [[#TOP|[top]]] {| | style="PADDING-RIGHT: 10.4pt; PADDING-LEFT: 5.4pt; PADDING-BOTTOM: 10pt; WIDTH: 226px; PADDING-TOP: 5pt" valign="top" | <br /><br /><br />[[Image:magdom3.jpg]]MFM images of magnetic "maze" domain patterns in GdFe multilayer films | valign="top" | ''' Magnetic Domain Dynamics by Coherent Magnetic X-ray Scattering</font></font>''' We are interested in studying the evolution of magnetic domains and effect of pinning centers in thin film magnetic systems as a function of magnetic field, temperature, and doping to</font></font> identify the role the disorder in formation and stability of the magnetic domains</font></font> using resonant magnetic x-ray coherent scattering. This technique allows us to use element specificity as well as depth resolution to understand the magnetic domains and their dynamics. In particular, <font color="black">we are interested in Fe/Gd and FeGdTb multilayer exhibiting ordered stripes due to perpendicular magnetic anisotropy (PMA). </font></font></font> |} <font color="black"> This system was chosen in order to have maximum magnetic contrast, negligible charge scattering and minor multiple scattering. </font></font></font><font color="black"> We propose to study the effects of field pinning of the local magnetic structure of these systems through their magnetization hysteresis loops and their temperature driven dynamics. </font></font></font> Comparison of the magnetic speckles (in momentum space) provides information on correlation between the magnetic structures (in real space). This metrology approach has been recently applied to study Return and Complimentary Point Memory in other magnetic system. </font></font><font color="black"> I</font></font></font> f the speckles are dynamic, which indicates that domains are fluctuating rather than frozen, we can use speckle intensity fluctuations in X-ray Photon Correlation Spectroscopy mode to investigate the effects of temperature and magnetic field on these domain wall fluctuation. </font></font> We then plan to<font color="black"> study the Barkhausen noise spectrum following the applied field, and to</font></font></font> extend this study to Tb doping in these systems,</font></font><font color="black"> which would induce strong PMA. Tuning the x-ray energy to the sharp magnetic resonances can provide information about the magnetic contributions to the domains. </font></font></font> <font color="black"> Fe/Gd multilayers and higher periodicity of Fe/Gd layer] were grown at room temperature by sputtering Fe and Gd onto a 100nm thick Si₃N₄ membrane. Standard magnetic hysteresis measurements [magneto-optic Kerr effect (MOKE) and vibrating sample magnetometer (VSM)] show perpendicular anisotropy (see Fig. 1). From these measurements the anti-ferromagnetic coupling between Fe and Gd is evident. </font></font></font> The magnetization in these systems breaks up in domains (width of about 250nm) of different directions in order to reduce the stray field energy. The formation of these domains coincides with the creation of domain walls where the magnetization rotates from one direction to the other at the expense of the exchange and anisotropy energies</font></font> . </font></font><font color="black"> Magnetic force microscopy (MFM) images show clear maze-like domain structure as a result of strong perpendicular anisotropy. MFM is sensitive to out-of-plane magnetization as the magnetic tip used for measuring the magnetic stray field of the sample is always magnetized along the tip axis and hence sensitive to the out-of-plane component of the magnetization. The dark and bright contrasts in the MFM images are due to magnetization of the sample pointing out-of-plane and into-the-plane, respectively. At each ramification of a domain the three branches are oriented at angles of about 120^o relative to each other. This behavior can be traced back to repulsive dipolar force among the equally magnetized domains. [[#TOP|[top]]] </font></font></font> '''<font color="black"> Why use X-rays? </font></font></font>''' <font color="black"> X-ray scattering is non-invasive as far as domain mapping is concerned. Element sensitivity and depth resolution are the key advantages of x-rays to study magnetic materials. To study the dynamics two most tuning parameter, temperature and magnetic field can easily be added to existing set-up with nominal modification. By contrast, MFM is an invasive technique in which one may influence the magnetic domains of the sample by the stray field of the tip or ''vice versa''. Imaging in the presence of moderate magnetic field (above 200 Gauss) is difficult as it changes the magnetization of the tip. Moreover, one observes an after-effect in response to the tip magnetization or the external field. ''' '''Using resonant magnetic x-ray scattering we can probe fluctuations in the domains and their dynamics. Spin-orbit splitting at the L and M absorption edges affords direct access to the domain magnetization vector. </font></font></font> <font color="black"> Different type of domains may result depending on the magnetic history of the sample. Application of magnetic field in the perpendicular direction results in randomly oriented "maze" domains, whereas in-plane field creates stripes preferentially oriented along the field direction. Increasing magnetic field results in change of the stripe structure to bubbles and then saturated at higher field value. At saturation, film transfer to single domain state. MFM shows only bright or dark contrast depending on whether one measure at the positive or negative saturation field following the hysteresis loop.</font></font></font><font color="black"> Formation, shape and stability of perpendicularly magnetized domains can be explained by the competition of the short range exchange interaction and the long range magnetostatic interaction. At higher magnetic fields a lattice of bubble domains has lower energy than stripe domains. Thus, a critical external field exists, where stripe domains become instable and collapse into bubble domains. It will be interesting to see the evolution of the domain pattern as a function of temperature. As the saturation magnetization goes down one can predict that at higher temperature the </font></font></font><font color="black"> magnetization goes in-plane which would result in weak magnetic contrast. </font></font></font> <font color="black"> Recently, we obtained strong resonant magnetic speckles in a multilayer GdFe system at the Gd M₅ edge at the 2-ID-B beamline at APS. Substantial reduction of magnetic contrast was observed by measuring away from the resonance peak. Figure 4 show speckle patterns taken at Gd M₅(1189 eV), M₄ (1218 eV) as well at 1179 eV (off the resonant edges).</font></font></font> <font color="black"> Use of resonant coherent x-rays will enable us to gain information about the local disorder on the nano-scale. </font></font></font> By analyzing correlations between speckles as a function of q, we can understand spatial distribution of correlations responsible for memory effects as a function of magnetic field and temperature, and identify the role the disorder plays in formation and stability of magnetic domains. </font></font><font color="black"> Measurement of the speckle as a function of time will </font></font></font> enable investigation of the effects of temperature and magnetic-field on domain wall fluctuations. The timescale of the fluctuations generally increases with the wave vector q (directly related to spatial frequencies or length scales for which fluctuations are observed). Analysis involving higher-order intensity correlation functions can yield information on the intermittent dynamics of magnetic switching (as opposed to continuous uniform domain wall propagation), while two-time correlation functions can be used to investigate non-equilibrium (aging) behavior of the system induced by a rapid change in tuning parameter, either the magnetic field or temperature. In future, using x-ray lensless imaging coupled with scanning `methods to study extended samples we can access not only the order-parameter (out-of-plane magnetization), but also the phase, which may provide crucial "hidden" information that is not accessible with STXM, PEEM, MFM or other techniques.</font></font> [[Image:FeGdenergyscan.gif]] <u></u><u></u> References: </font></font> Jyoti Mohanty, Ashish Tripathi, Erik Shipton, Keith Chan, SangSoo Kim, Ian McNulty, Eric Fullerton and Oleg Shpyrko, APS March Meeting, Pittsburg, March 16-20, 2009. View [http://meetings.aps.org/Meeting/MAR09/Event/98891 Abstract]</font></font> |} </font></div></div> </div> ---- <br style="clear: both" />[http://oleg.ucsd.edu/panorama.htm [[Image:MtSoledad_Panorama1c_small.jpg]]]<br style="clear: both" /> ---- <div id="footer"><small class="footer_content"> [http://oleg.ucsd.edu/ shpyrko research group] at [http://www.ucsd.edu ucsd] • last updated on 12/27/2007 </small></div> 2e23da3a425293bcddac8eeb9e75343d2d5234b2 385 383 2009-04-27T02:44:52Z Oleg 2 ===Eating vegetarian=== Despite its image as light and healthy cuisine, everyday Japanese food can be quite heavy in salt and fat, with deep-fried meat or seafood being prominent. Vegetarians (much less vegans) may have difficulty finding a meal that does not include animal products to some degree, particularly as the near-ubiquitous Japanese soup stock ''dashi'' is usually prepared with bonito. An excellent option is the ''kaiten'' sushi shop. Westerners tend to associate sushi with fish, but there are several kinds of rolled sushi available in these shops that does not include fish or other marine creatures: ''kappa maki'' (cucumber rolls), ''nattō maki'' (sushi filled with stringy fermented soy beans, an acquired taste for many), ''kanpyō maki'' (pickled-gourd rolls), and, occasionally, ''yuba sushi'' (made with the delicate, tasty 'skin' of tofu). These types of sushi tend to be less popular than the sushi using marine animal products, so you may not see them revolving in front of your eyes on the conveyor belt. Just shout out the name of the type of sushi you want and the sushi chef will prepare it for you right away. When you are ready to leave, call the waitress over and she'll count your plates. The vegetarian sushi options are always inexpensive. Whether eating vegetarian (or otherwise), kaiten sushi shops offer good value and are lots of fun. For anyone living in big cities, especially Tokyo, an excellent option is organic food, known as ''shizenshoku'' (自然食). While "vegetarian food" may sound boring, or even unappetizing to Japanese ears, ''shizenshoku'' is quite in vogue as of late, although meals may cost about ¥3000. While considerably harder to find, it's worth looking out for a restaurant (often run by temples) that offers ''shōjin ryori'' (精進料理), the purely vegetarian cuisine developed by Buddhist monks. This cuisine is highly regarded, and thus commands astronomical prices. ==Drink== [[Image:VendingMachines_Row.JPG|thumb|240px|Difficult decisions at Meiji Shrine, [[Tokyo/Harajuku|Harajuku]], [[Tokyo]]]] The Japanese drink a lot: not only green tea in the office, at meetings and with meals, but also all types of alcoholic beverages in the evening with friends and colleagues. Many social scientists have theorized that in a strictly conformist society, drinking provides a much-needed escape valve that can be used to vent off feelings and frustrations without losing face the next morning. In Japan, the drinking age is '''20''' (as is the age of majority and smoking age, for that matter). This is notably higher than most of Europe and the Americas (excepting the United States). However, ID verification is almost never requested at restaurants, bars, convenience stores or other purveyors of liquor, so long as the purchaser does not appear obviously underage. The main exception is in the large clubs in Shibuya, Tokyo, which are popular with young Tokyoites and during busy times will ID everyone entering the club. ===Where to drink=== b8afe3704a1594684105368703ff9d54646b8aa9 383 339 2009-04-27T01:50:29Z Oleg 2 Test your edits here {{quickbar | image=[[Image:MatsumotoCastle.jpg|noframe|250px]] | location=[[Image:LocationMapJapan.png]] | flag=[[Image:ja-flag.png]] | capital=[[Tokyo]] | government=Constitutional monarchy with a parliamentary government | currency=yen (JPY, ¥) | area=''total:'' 377,835 km²<br />''water:'' 3,091 km²<br />''land:'' 374,744 km² | population=127,463,611 (July 2006 est.) | language=[[Japanese]] | religion=Shinto and Buddhism (often both), Christian (0.7%) | electricity=100V/50 or 60Hz (American plug) | callingcode=+81 | tld=.jp | timezone=UTC+9 }} x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2, cell 2 <analytics uacct="UA-8527539-1" ></analytics> 88091c143c7c5ed1d19d11a40874b4fad391efd8 339 216 2009-04-24T14:42:28Z Oleg 2 Test your edits here x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2, cell 2 <analytics uacct="UA-8527539-1" ></analytics> e0ecbf491a3e17da95ee4df3cadaa6269e7bc5f0 216 185 2009-04-19T21:23:12Z Oleg 2 Test your edits here x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2, cell 2 a7df048b16a275606d0ac51c49b6c024fa1a9330 185 106 2009-04-15T15:14:57Z Oleg 2 Test your edits here x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2, cell 2 | row 2, cell 3\n|} <blockquote>\ntest 123\n</blockquote> Below is our partial group calendar listings: <iframe> url=www.heise.de width=100% height=adjust name=myframe </iframe> <iframe src="http://www.google.com/calendar/embed?showCalendars=0&amp;height=1000&amp;wkst=2&amp;bgcolor=%23ffffff&amp;src=eit2kq6abq4ska7v76uc5j0714%40group.calendar.google.com&amp;color=%23A32929&amp;src=p%23weather%40group.v.calendar.google.com&amp;color=%238D6F47&amp;ctz=America%2FLos_Angeles" style=" border-width:0 " width="700" height="1000" frameborder="0" scrolling="no"></iframe> </div> <a target="_blank" href="http://www.google.com/calendar/render?cid=oleg.shpyrko%40gmail.com"><img src="http://www.google.com/calendar/images/ext/gc_button1_en.gif" border=0></a> <hr style="display:none;"/> 1696b787e90845d8d657b74652395efa28644549 106 105 2009-04-05T16:05:53Z Oleg 2 Test your edits here x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2, cell 2 | row 2, cell 3\n|} <blockquote>\ntest 123\n</blockquote> f66f3487d3d6fee87cd7ca2395acecbb07dec094 105 2009-04-05T16:05:25Z Oleg 2 New page: Test your edits here x²_edit {| class="wikitable"\n|-\n! header 1 ! header 2 ! header 3 |- | row 1, cell 1 | row 1, cell 2 | row 1, cell 3 |- | row 2, cell 1 | row 2... 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E. Fullerton and I. K. Schuller, “The 2007 Nobel Prize in Physics: Magnetism and Transport at the Nanoscale,” ACS Nano 1, 384-389 (2007)] * [http://x-ray.ucsd.edu/mediawiki/images/1/13/FertA_Spintronics_RMP_2009.pdf A. Fert, “Nobel Lecture: Origin, development, and future of spintronics,” Reviews of Modern Physics 80, 1517-14 (2008)] * [http://x-ray.ucsd.edu/mediawiki/images/5/52/GrunbergP_NobelLecture_GMR_RMP_2008.pdf Peter A. Grünberg, "Nobel Lecture: From spin waves to giant magnetoresistance and beyond" Rev. Mod. Phys. 80, 1531 (2008)] * [http://x-ray.ucsd.edu/mediawiki/index.php/Image:Spintronics-Schuller.pdf Prof. Ivan Schuller, Lecture on Spintronics] * [http://x-ray.ucsd.edu/mediawiki/images/9/9d/GMRreadheads-Fullerton.pdf Prof. Eric Fullerton, lecture on GMR readheads] * [http://x-ray.ucsd.edu/mediawiki/images/b/b1/WolfS_AwschalomBuhrman_SpintronicsReview_Sc_2001.pdf S. Wolf, D. Awschalom, R. 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Fert, “Nobel Lecture: Origin, development, and future of spintronics,” Reviews of Modern Physics 80, 1517-14 (2008)] * [http://x-ray.ucsd.edu/mediawiki/images/5/52/GrunbergP_NobelLecture_GMR_RMP_2008.pdf Peter A. Grünberg, "Nobel Lecture: From spin waves to giant magnetoresistance and beyond" Rev. Mod. Phys. 80, 1531 (2008)] * [http://x-ray.ucsd.edu/mediawiki/index.php/Image:Spintronics-Schuller.pdf Prof. Ivan Schuller, Lecture on Spintronics] * [http://x-ray.ucsd.edu/mediawiki/images/9/9d/GMRreadheads-Fullerton.pdf, Prof. Eric Fullerton, lecture on GMR readheads] * [http://x-ray.ucsd.edu/mediawiki/images/b/b1/WolfS_AwschalomBuhrman_SpintronicsReview_Sc_2001.pdf S. Wolf, D. Awschalom, R. Buhrman et al., “Spintronics: A spin-based electronics vision for the future,” Science 294, 1488 (2001)] * [http://x-ray.ucsd.edu/mediawiki/images/7/7a/AwschalomD_SpintronicsReview_NPhys_2007.pdf D. D. Awschalom and M. E. 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http://www.snpa.org/stories/latest-candy-crush-saga-generator-hack-cheats-free-unlimited-golds-lives-generator-no-human,4163528 http://www.snpa.org/stories/working-cheats-candy-crush-saga-hack-tool-golds-lives-generator-ios-android,4163529 http://www.systemsbiology.ls.manchester.ac.uk/wiki/index.php/(Unlimited-free)_Playstation_Gift_Card_Generator_2023_Updates_No_Human_Verification http://www.schome.ac.uk/wiki/(Premium_Generator)_Google_Play_Gift_Card_Generator_2023_No_Human_Verification_Working https://cmpdartsvr3.cmp.uea.ac.uk/wiki/BanghamLab/index.php/(New_Updated_Method)_Free_Google_Play_Gift_Card_Generator_2023_No_Verification https://source.geography.bristol.ac.uk/wiki/(New_Updates)_Google_Play_Gift_Card_Generator_2023_Free_No_Verification http://www.systemsbiology.ls.manchester.ac.uk/wiki/index.php/(Unlimited-codes)_Free_Playstation_Gift_Card_Generator_2023_Updates_No_Human_Verification ba3b47a28145292eeceb3ee7d4ddcd28288fc25a 0 101 781 758 2010-03-03T02:40:46Z Oleg 2 Reverted edits by [[Special:Contributions/Anatomiadvertorial|Anatomiadvertorial]] ([[User talk:Anatomiadvertorial|Talk]]); changed back to last version by [[User:Oleg|Oleg]] == How to get to my office (Mayer Hall 3210): == [[Image:Oleg's_Office.jpg|thumb|left|Map to my office, Mayer Hall 3210]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Oleg's_Office.pdf pdf]) to locate Mayer Hall, my office is 3210 (count down from 3) on the 3rd floo. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. 8d64fae0fa42a2ad313cc8f6d648890190b4d58b 758 713 2010-02-12T22:55:51Z Anatomiadvertorial 21 == How to get to my office (Mayer Hall 3210): == [[Image:Oleg's_Office.jpg|thumb|left|Map to my office, Mayer Hall 3210]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Oleg's_Office.pdf pdf]) to locate Mayer Hall, my office is 3210 (count down from 3) on the 3rd floo. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc revizyon ile organize matbaacılık brnckvvtmllttrhaberi] [http://revizyonorganizebrnckvvtmllttrhaberi.co.cc/category/revizyon revizyon] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.tv/category/revizyon-matbaacilik revizyon matbaacılık] [http://revizyonorganizebrnckvvtmllttrhaberi.co.tv/category/revizyon-ile-organize revizyon ile organize] [http://revizyonmatbaacilikbrnckvvtmllttrhaberi.co.cc/category/brnckvvtmllttrhaberi brnckvvtmllttrhaberi] 87b91b893807355a31bfd8fdd80bec5c220c5e1e 713 290 2009-09-17T21:57:10Z Oleg 2 == How to get to my office (Mayer Hall 3210): == [[Image:Oleg's_Office.jpg|thumb|left|Map to my office, Mayer Hall 3210]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:Oleg's_Office.pdf pdf]) to locate Mayer Hall, my office is 3210 (count down from 3) on the 3rd floo. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. 8d64fae0fa42a2ad313cc8f6d648890190b4d58b 290 287 2009-04-22T05:32:51Z Oleg 2 == How to get to my office (Mayer Hall Addition or MHA 3681): == [[Image:MHA3681b.jpg|thumb|left|Map to my office, Mayer Hall Addition 3681]] * If you are new to the campus, orient yourself according to these UCSD campus maps: [http://maps.ucsd.edu/Viewer.htm?Zoom=6&Map=Parking&O.x=1557&P.x=263&O.y=2030&Cmnd=Mnfy&P.y=243&View=Large&Fill=348&Lkey=7951 interactive] or [http://maps.ucsd.edu/Acrobat/MainCampus.pdf pdf] * Call ahead (4-3066) or at my google voice number 858-952-1248 to make sure I am currently in my office * Use the map below ([http://x-ray.ucsd.edu/mediawiki/index.php/Image:MHA3681.pdf pdf]) to locate Mayer Hall Addition, my office is on the 3rd floor facing Gilman Drive. Mayer Hall is located next to pedestrial overpass over Gilman Dr. See you there, Oleg. 368567e598f564091b6ea1e79e47b218d256095d 287 2009-04-22T05:17:17Z Oleg 2 New page: == How to get to my office (Mayer Hall Addition or MHA 3681): == * If you are new to the campus, orient yourself according to these UCSD campus maps: interactive or pdf * Call ahead (4-30... == How to get to my office (Mayer Hall Addition or MHA 3681): == * If you are new to the campus, orient yourself according to these UCSD campus maps: interactive or pdf * Call ahead (4-3066) to make sure I am actually in my office * Use the map below (pdf) to locate Mayer Hall Addition, my office is on the 3rd floor facing Gilman Drive See you there, Oleg. 2d98eb5001e1ff8f6a44ac85a17dced222730c2b 0 439 2013 2023-02-14T14:44:53Z Samstanwyck 12 Created page with "https://cs61.seas.harvard.edu/wiki/(New_Real)_Hollywood_Story_Diamonds_Gems_Generator_2023_No_Human_Verification 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High uptimes and "designed-in" maintainability differentiate the MicroMax-007 HF from the competition. Ideal for rapid screening of samples and for collection of the highest quality data for in-house structure determination, the MicroMax-007 HF provides the flux you need, where you need it: on your crystal. * Designed for small and poorly diffracting crystals * Brilliant flux intensity of 8 × 1010 X-rays/mm²/sec * Proven productivity across the largest installed base **MicroMax-007 HF with VariMax-HF optic (measured):** Focal spot size (μm) φ = 70 Power (kW) 1.2 Beam size at sample (μm) 208 Flux at φ = 100 μm (X-ray/sec/mm²) 0.78 x 10¹¹ Divergence (mR) 4.8 Brightness (X-ray/sec/mm²/mR²) 3.8 x 109 Upgrade now to a proven "state-of-the art" source Commercial microfocus sources, suitable for protein crystallography, first became available early in this decade with the advent of the original Rigaku MicroMax-007 microfocus rotating anode generator. 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When equipped with high performance adjustable Osmic™ VariMax™ optics, flux can be traded for lower divergence to deliver superior resolving power. Engineered for reliability The real day-to-day productivity of a system is dependant on its operability, maintainability and whether or not human factors are at the core of the design. Featuring a unique direct-drive anode, the MicroMax-007 HF compact tower assembly contains both the vacuum chamber and turbo-molecular pump for fast pump downs. Conveniently mounted on the generator tabletop, the tower may be easily moved for integration with various optics, goniometers and detectors. * Smallest focal spot size of any rotating anode generator (70 μm diameter circle) * 1.2 kW power in a small beam provides greater flux density and less background for tiny crystals * Extended anode and filament lifetimes * Unique pre-aligned and pre-crystallized filament cartridges minimize maintenance * Moveable anode assembly accommodates any hardware configuration * Choice of anode materials: Cu, Cr, Mo, and Co * Optimum performance achieved when coupled with Osmic™ VariMax™ optics * The X-ray generator of the HighFlux HomeLab™ * A high flux option for Rigaku small molecule and SAXS systems 1e554264c7391c40f5ddee361da86cae45194fcf 0 23 78 62 2009-04-03T03:21:50Z Oleg 2 /* Reading Material on X-ray Detectors: */ ===== Reading Material on X-ray Detectors: ===== '''General Information on Semiconductor-based area detectors:''' * Lutz, G. (1997). Semiconductor Radiation Detectors. * [http://x-ray.ucsd.edu/mediawiki/images/5/5f/GrunerS_CCD_X-ray_RSI_2002.pdf S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002)] '''Other, more specific reading material:''' * A. Ercan, M. W. Tate, and S. M. Gruner, "Analog Pixel Array Detectors," Journal of Synchrotron Radiation 13, 110 (2006). * G. C. Smith, "Gas-Based Detectors for Synchrotron Radiation," Journal of Synchrotron Radiation 13, 172 (2006). * Q. S. Hanley and M. B. Denton, "Advances in Array Detectors for X-Ray Diffraction Techniques," Journal of Synchrotron Radiation 12, 618 (2005). * [http://x-ray.ucsd.edu/mediawiki/images/a/a3/RossiG_PAD_JSR_1999.pdf G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999)] * [http://x-ray.ucsd.edu/mediawiki/images/b/b6/RenziM_PAD_2002.pdf M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002)] * [http://x-ray.ucsd.edu/mediawiki/images/a/a8/TateM_Xray_Coupled_CCD_RSI_2005.pdf M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. Instrum. 76, 081301 (2005).] * [http://bigbro.biophys.cornell.edu/research/pad/ Pixel Array Detectors, Gruner Group at Cornell] b69fa49e0389804ef25098f4f1df3d9c37e8ada5 62 61 2009-04-01T17:51:52Z Oleg 2 ===== Reading Material on X-ray Detectors: ===== '''General Information on Semiconductor-based area detectors:''' * [http://x-ray.ucsd.edu/mediawiki/images/8/81/Lutz%2C_G._Semiconductor_Radiation_Dectors_3540716785.pdf Lutz, G. (1997). Semiconductor Radiation Detectors.] * [http://x-ray.ucsd.edu/mediawiki/images/5/5f/GrunerS_CCD_X-ray_RSI_2002.pdf S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002)] '''Other, more specific reading material:''' * A. Ercan, M. W. Tate, and S. M. Gruner, "Analog Pixel Array Detectors," Journal of Synchrotron Radiation 13, 110 (2006). * G. C. Smith, "Gas-Based Detectors for Synchrotron Radiation," Journal of Synchrotron Radiation 13, 172 (2006). * Q. S. Hanley and M. B. Denton, "Advances in Array Detectors for X-Ray Diffraction Techniques," Journal of Synchrotron Radiation 12, 618 (2005). * [http://x-ray.ucsd.edu/mediawiki/images/a/a3/RossiG_PAD_JSR_1999.pdf G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999)] * [http://x-ray.ucsd.edu/mediawiki/images/b/b6/RenziM_PAD_2002.pdf M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002)] * [http://x-ray.ucsd.edu/mediawiki/images/a/a8/TateM_Xray_Coupled_CCD_RSI_2005.pdf M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. Instrum. 76, 081301 (2005).] * [http://bigbro.biophys.cornell.edu/research/pad/ Pixel Array Detectors, Gruner Group at Cornell] 645d2ace7c86bfb2392e197adc72aaa90dfe2ced 61 55 2009-04-01T17:50:39Z Oleg 2 ===== Reading Material on X-ray Detectors: ===== **General Information on Semiconductor-based area detectors:** * [http://x-ray.ucsd.edu/mediawiki/images/8/81/Lutz%2C_G._Semiconductor_Radiation_Dectors_3540716785.pdf Lutz, G. (1997). Semiconductor Radiation Detectors.] * [http://x-ray.ucsd.edu/mediawiki/images/5/5f/GrunerS_CCD_X-ray_RSI_2002.pdf S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002)] **Other, more specific reading material:** * A. Ercan, M. W. Tate, and S. M. Gruner, "Analog Pixel Array Detectors," Journal of Synchrotron Radiation 13, 110 (2006). * G. C. Smith, "Gas-Based Detectors for Synchrotron Radiation," Journal of Synchrotron Radiation 13, 172 (2006). * Q. S. Hanley and M. B. Denton, "Advances in Array Detectors for X-Ray Diffraction Techniques," Journal of Synchrotron Radiation 12, 618 (2005). * [http://x-ray.ucsd.edu/mediawiki/images/a/a3/RossiG_PAD_JSR_1999.pdf G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999)] * [http://x-ray.ucsd.edu/mediawiki/images/b/b6/RenziM_PAD_2002.pdf M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002)] * [http://x-ray.ucsd.edu/mediawiki/images/a/a8/TateM_Xray_Coupled_CCD_RSI_2005.pdf M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. Instrum. 76, 081301 (2005).] [http://bigbro.biophys.cornell.edu/research/pad/ Pixel Array Detectors, Gruner Group at Cornell] c7744d5d35eaf057bfbb1dc47ae6b43d8a765f9e 55 2009-04-01T17:43:03Z Oleg 2 New page: ===== Reading Material on X-ray Detectors: ===== **General Information on Semiconductor-based area detectors:** * {{:lutz_g._semiconductor_radiation_detectors_3540716785.pdf|Lutz, G. ... ===== Reading Material on X-ray Detectors: ===== **General Information on Semiconductor-based area detectors:** * {{:lutz_g._semiconductor_radiation_detectors_3540716785.pdf|Lutz, G. (1997). Semiconductor Radiation Detectors. Berlin: Springer.}} * {{:gruners_ccd_x-ray_rsi_2002.pdf|S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002).}} **Other, more specific reading material:** * A. Ercan, M. W. Tate, and S. M. Gruner, "Analog Pixel Array Detectors," Journal of Synchrotron Radiation 13, 110 (2006). * G. C. Smith, "Gas-Based Detectors for Synchrotron Radiation," Journal of Synchrotron Radiation 13, 172 (2006). * Q. S. Hanley and M. B. Denton, "Advances in Array Detectors for X-Ray Diffraction Techniques," Journal of Synchrotron Radiation 12, 618 (2005). * G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999). * {{:renzim_pad_2002.pdf|M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002)}}. * {{:tatem_xray_coupled_ccd_rsi_2005.pdf| M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. 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Feel free to edit or create pages as you see fit. == Undergrad Section: == [http://www.google.com/calendar/embed?src=qj0c32vdcg533kftrnqd34sb3k%40group.calendar.google.com&ctz=America%2FLos_Angeles&gsessionid=wgzyjTUqEbuHchgZRixByA Sam and Mike's Schedule (Urey Hall Lab)] [http://etherbytes.com/pub/ Mike's Server (Matlab Code Ect.)] 032a8c43ff190286464662029ca8ecb664dd52cc 682 681 2009-07-13T19:32:07Z Mfolkerts 10 Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. [http://www.google.com/calendar/embed?src=qj0c32vdcg533kftrnqd34sb3k%40group.calendar.google.com&ctz=America%2FLos_Angeles&gsessionid=wgzyjTUqEbuHchgZRixByA Sam and Mike's Schedule (Urey Hall Lab)] b15a389c03e4574688f7282ef7e9fb98421fd70d 681 182 2009-07-13T19:30:39Z Mfolkerts 10 Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. [http://www.google.com/calendar/embed?src=qj0c32vdcg533kftrnqd34sb3k%40group.calendar.google.com&ctz=America%2FLos_Angeles&gsessionid=wgzyjTUqEbuHchgZRixByA Sam and Mike's Schedule in DLS Lab (Urey Hall)] 70a4f28e4b8ef17c6a8061fe18b9f4de8c324167 182 181 2009-04-15T14:57:05Z Oleg 2 Protected "[[Talk:Main Page]]" [edit=autoconfirmed:move=autoconfirmed] Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. 3e90dedb26ae38fdd9598784af2509dc0f59fff5 181 180 2009-04-15T14:31:27Z Oleg 2 Replacing page with 'Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit.' Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. 3e90dedb26ae38fdd9598784af2509dc0f59fff5 180 179 2009-04-15T14:30:15Z 195.2.240.99 0 /* dfghfgh */ new section Welcome to Shpyrko Group Wiki. 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Feel free to edit or create pages as you see fit. == dfhfghg == <a href=http://www.yoseikan-budo.org/fr/user/551>lesbian sex</a> http://www.yoseikan-budo.org/fr/user/551 - lesbian sex <a href=http://necjogha.org/users/vebsters>lesbian sex</a> http://necjogha.org/users/vebsters - lesbian sex <a href=http://lubbock.skirt.com/user/13486>teen sex videos</a> http://lubbock.skirt.com/user/13486 - teen sex videos <a href=http://www.sicsemper.com/user/854>teen sex videos</a> http://www.sicsemper.com/user/854 - teen sex videos <a href=http://board.usfigureskating.org/members/vbester.aspx>paris hilton nude</a> http://board.usfigureskating.org/members/vbester.aspx - paris hilton nude == sdfgdgdf == <a href=http://www.markfiore.com/user/1263>sex jokes</a> http://www.markfiore.com/user/1263 - sex jokes <a href=http://www.markfiore.com/user/1264>creampie sex</a> http://www.markfiore.com/user/1264 - creampie sex <a href=http://kpwr.org/users/kamaradikko2>home made sex videos</a> http://kpwr.org/users/kamaradikko2 - home made sex videos <a href=http://kpwr.org/users/jjkabc22>first time sex stories</a> http://kpwr.org/users/jjkabc22 - first time sex stories <a href=http://kpwr.org/users/pasoroblesdk>ray j sex tape</a> http://kpwr.org/users/pasoroblesdk - ray j sex tape <a href=http://www.dezinedepot.com/user/18139>kim possible porn</a> http://www.dezinedepot.com/user/18139 - kim possible porn <a href=http://www.myhealthgate.com/user/cajunbikr>sex oasis</a> http://www.myhealthgate.com/user/cajunbikr - sex oasis <a href=http://www.myhealthgate.com/user/chaiyasaeng-1234>guntur sex</a> http://www.myhealthgate.com/user/chaiyasaeng-1234 - guntur sex <a href=http://www.myhealthgate.com/user/nicole-tompson>kim kardashian sex tape</a> http://www.myhealthgate.com/user/nicole-tompson - kim kardashian sex tape 56b3b6bfec9d579a04517cad3027aca793b782f8 152 2 2009-04-13T11:49:07Z 195.2.240.99 0 /* dfhfghg */ new section Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. == dfhfghg == <a href=http://www.yoseikan-budo.org/fr/user/551>lesbian sex</a> http://www.yoseikan-budo.org/fr/user/551 - lesbian sex <a href=http://necjogha.org/users/vebsters>lesbian sex</a> http://necjogha.org/users/vebsters - lesbian sex <a href=http://lubbock.skirt.com/user/13486>teen sex videos</a> http://lubbock.skirt.com/user/13486 - teen sex videos <a href=http://www.sicsemper.com/user/854>teen sex videos</a> http://www.sicsemper.com/user/854 - teen sex videos <a href=http://board.usfigureskating.org/members/vbester.aspx>paris hilton nude</a> http://board.usfigureskating.org/members/vbester.aspx - paris hilton nude a440b9750364dbf2d01df8704de8871b0a6542fe 2 2009-01-25T05:15:52Z Oleg 2 New page: Welcome to Shpyrko Group Wiki. Feel free to edit or create pages as you see fit. Welcome to Shpyrko Group Wiki. 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Use the hack responsibly and at your own risk. 251d015b7612f25a506938f0aebcca0f9581bbb7 1 384 1553 2013-04-02T00:09:58Z Oleg 2 moved [[Talk:PHYS 100C]] to [[Talk:PHYS 100C v2012]] #REDIRECT [[Talk:PHYS 100C v2012]] 520fa9ccc5fff3a8d19271ea09fe3155446641fb 1 33 815 762 2010-03-23T14:53:25Z Oleg 2 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' 07eba45328b7fcd0d5e681134684ef7daf5db9e5 762 291 2010-02-24T01:09:38Z Oleg 2 [[Talk:PHYS 100C]] moved to [[Talk:PHYS 100C 2009]] '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. Richard How about right after lecture in the SPS room for the study groups? -Afif I love the coffee idea, I'm willing to pitch in some money. -Mike (4/9 - 10PM) I disabled anonymous commenting due to increased amount of spam --[[User:Oleg|oleg]] 05:42, 22 April 2009 (UTC) 9ffb7ae062517e5ce9be17c56fb1dedcaa4be298 291 125 2009-04-22T05:42:46Z Oleg 2 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. Richard How about right after lecture in the SPS room for the study groups? -Afif I love the coffee idea, I'm willing to pitch in some money. -Mike (4/9 - 10PM) I disabled anonymous commenting due to increased amount of spam --[[User:Oleg|oleg]] 05:42, 22 April 2009 (UTC) 9ffb7ae062517e5ce9be17c56fb1dedcaa4be298 125 124 2009-04-10T05:24:35Z 71.137.5.154 0 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. Richard How about right after lecture in the SPS room for the study groups? -Afif I love the coffee idea, I'm willing to pitch in some money. -Mike (4/9 - 10PM) 9c2c38d16c8d70eef4456efef8a63c2d6a668349 124 114 2009-04-10T05:03:59Z 66.75.249.171 0 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. Richard I love the coffee idea, I'm willing to pitch in some money. -Mike (4/9 - 10PM) b1034dc6cf51979d7232c78cb13990e577c4dd54 114 113 2009-04-07T16:44:42Z Fizzle master J 3 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' add here Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. Richard 6422d2e1df1ce8c578cb571c809fc1ef68e942ae 113 112 2009-04-07T16:44:09Z Fizzle master J 3 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' add here Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn Yeaaah good idea. 199bb4cdb11d9407c25803d1e7fa80735010ad60 112 84 2009-04-06T00:27:49Z 66.27.119.124 0 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' add here Would anyone like to form a study group? And as long as our professor doesn't mind, I was thinking of bringing coffee thermos (to keep us awake) for everyone to share but you must provide your own cups. Shawn d834f9fbe458c363761402b71b633ba5e56acb90 84 83 2009-04-04T15:10:54Z Oleg 2 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' add here 2ef640285cf3346e90e8f46107d3fc76892a03d2 83 82 2009-04-04T15:10:43Z Oleg 2 '''Discussions about the PHYS 100C course, criticisms etc. can be added here (anonymously - or not)''' 07eba45328b7fcd0d5e681134684ef7daf5db9e5 82 2009-04-04T15:04:05Z 132.239.1.231 0 New page: '''Discussions can be added here''' '''Discussions can be added here''' 90f290066debd33687e7cc8014793b55712f0f8d 1 245 1392 1385 2012-04-03T00:04:34Z Oleg 2 Blanked the page da39a3ee5e6b4b0d3255bfef95601890afd80709 1385 763 2012-04-02T23:27:26Z Oleg 2 moved [[Talk:PHYS 100C]] to [[Talk:PHYS 100C Spring 2010]] #REDIRECT [[Talk:PHYS 100C 2009]] e3c97675ccd63efe73f5cace508a1ef73ffb7b9a 763 2010-02-24T01:09:38Z Oleg 2 [[Talk:PHYS 100C]] moved to [[Talk:PHYS 100C 2009]] #REDIRECT [[Talk:PHYS 100C 2009]] e3c97675ccd63efe73f5cace508a1ef73ffb7b9a 1 367 1552 1386 2013-04-02T00:09:58Z Oleg 2 moved [[Talk:PHYS 100C]] to [[Talk:PHYS 100C v2012]] #REDIRECT [[Talk:PHYS 100C Spring 2010]] 30968a1f86227f34eee3e01941ae741d66db84aa 1386 2012-04-02T23:27:26Z Oleg 2 moved [[Talk:PHYS 100C]] to [[Talk:PHYS 100C Spring 2010]] #REDIRECT [[Talk:PHYS 100C Spring 2010]] 30968a1f86227f34eee3e01941ae741d66db84aa 1 697 2272 2023-09-04T15:30:38Z Samstanwyck 12 Created page with "Unlock Unlimited Gems and Resources with Raid Shadow Legends Hack!Are you tired of grinding for hours in Raid Shadow Legends only to be left with limited resources and no way ..." 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Use them at your own risk. d0a3e628acde4c3b9b8c5bb512ad49cb7a30b3a8 1 76 219 2009-04-21T03:21:15Z Oleg 2 New page: test --[[User:Oleg]] --~~~~ test --[[User:Oleg]] --[[User:Oleg|oleg]] 03:21, 21 April 2009 (UTC) 37cb77fbe7b4759fa63db04caab47556d18971dd 1 706 2281 2023-09-04T15:47:40Z Samstanwyck 12 Created page with "Gta 5 Hack, Gta 5 Generator, Gta 5 Money Generator, Gta 5 Cheats, Gta 5 Money Cheats, Gta 5 Free Generator Online, Gta 5 Money Hack - These are terms that have become widely p..." Gta 5 Hack, Gta 5 Generator, Gta 5 Money Generator, Gta 5 Cheats, Gta 5 Money Cheats, Gta 5 Free Generator Online, Gta 5 Money Hack - These are terms that have become widely popular among gamers of Grand Theft Auto 5. With its immersive gameplay and thrilling open-world environment, GTA 5 has captured the hearts of millions of players worldwide. However, as with any game, progressing through the virtual world can sometimes be challenging. 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Use the generator responsibly and at your own risk. 970811fff327ab9ee748663c953df3adcf1888c3 2 341 1560 1149 2013-04-04T19:07:46Z EdwinF 31 [[Image:Edwin.jpg|thumb|left|Edwin Fohtung]] * Office: Mayer Hall Addition 3681 <br /> * Phone (Office): 858-822-6446<br /> * Email: efohtung[at]physics.ucsd.edu 0f5b97b8f1bf0e6f9bed931718747614a88a2fd5 1149 1148 2010-11-23T04:15:32Z EdwinF 31 [[Image:Edwin.jpg|thumb|left|Edwin Fohtung]] * Office: Mayer Hall Addition 3681 <br /> * Phone (Office): 858-822-6446<br /> * Email: e.fohtung[at]physics.ucsd.edu 85b3d1a275ae650da66efc41cd938ca54db614de 1148 1146 2010-11-23T02:05:09Z Sebastian 30 [[Image:Edwin.jpg|thumb|left|Edwin Fohtung]] * Office: Mayer Hall Addition 3681 <br /> * Phone (Office): 858-246-????<br /> * Email: edwin.fohtung[at]???? 9d19591510255f3e1abc83ac5999f8839b6e0ef8 1146 2010-11-23T02:01:57Z Sebastian 30 Created page with '[[Image:Edwin.jpg|thumb|left|Edwin Fohtung]]' [[Image:Edwin.jpg|thumb|left|Edwin Fohtung]] a08f1b8176f319ebad19e5dd5950060ff8cdabc6 2 319 1083 1082 2010-09-08T01:03:26Z JongWoo 26 Undo revision 1082 by [[Special:Contributions/JongWoo|JongWoo]] ([[User talk:JongWoo|Talk]]) da39a3ee5e6b4b0d3255bfef95601890afd80709 1082 1081 2010-09-08T01:02:01Z JongWoo 26 Undo revision 1081 by [[Special:Contributions/JongWoo|JongWoo]] ([[User talk:JongWoo|Talk]]) =Summer 2010:= * [[Media:VO2_experiment_summary(Aug.2010@APS).pdf‎|Jong Woo Kim, VO2 Experiment summary (Aug.20th-25th.2010@APS)]] 0fc6a1430831bc09ef3c224519ed1a2b18002948 1081 1078 2010-09-08T00:44:05Z JongWoo 26 Blanked the page da39a3ee5e6b4b0d3255bfef95601890afd80709 1078 1076 2010-09-07T19:08:58Z JongWoo 26 moved [[Group:Group Presentations]] to [[User:JongWoo]] over redirect: revert =Summer 2010:= * [[Media:VO2_experiment_summary(Aug.2010@APS).pdf‎|Jong Woo Kim, VO2 Experiment summary (Aug.20th-25th.2010@APS)]] 0fc6a1430831bc09ef3c224519ed1a2b18002948 1076 1075 2010-09-07T19:07:40Z JongWoo 26 moved [[User:JongWoo]] to [[Group:Group Presentations]] =Summer 2010:= * [[Media:VO2_experiment_summary(Aug.2010@APS).pdf‎|Jong Woo Kim, VO2 Experiment summary (Aug.20th-25th.2010@APS)]] 0fc6a1430831bc09ef3c224519ed1a2b18002948 1075 2010-09-07T18:55:33Z JongWoo 26 /* Summer 2010: */ =Summer 2010:= * [[Media:VO2_experiment_summary(Aug.2010@APS).pdf‎|Jong Woo Kim, VO2 Experiment summary (Aug.20th-25th.2010@APS)]] 0fc6a1430831bc09ef3c224519ed1a2b18002948 2 393 1760 1726 2016-02-05T03:13:26Z Leandra 27 /* Leandra's Presentations: */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] *[[Media:Leandra_User_Meeting_2014.pdf|Research Poster for Advanced Photon Source Users Meeting 2014]] ==Graduation Requirements== *[https://escholarship.org/uc/item/1b1620s4 Dissertation: X-Ray Studies of Diffusion Dynamics in Nano-Confined Geometries] *[[Media:LeandraDefense.pdf|Ph.D. Defense: X-Ray Studies of Diffusion Dynamics in Nano-Confined Geometries, October 2015]] *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:MM2015_LB.pdf|Jamming in Quasi-2D Self-Assembled Nanoparticle Monolayers, APS March Meeting 2015]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] 5d505927c6a413de4474a1505ac9cdd0b7c353e7 1726 1725 2015-08-31T21:59:01Z Leandra 27 /* Teaching */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_User_Meeting_2014.pdf|Research Poster for Advanced Photon Source Users Meeting 2014]] *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:MM2015_LB.pdf|Jamming in Quasi-2D Self-Assembled Nanoparticle Monolayers, APS March Meeting 2015]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] c6b15f5fc6699de6bcd22297fb095d7037b0d83c 1725 1723 2015-08-31T21:58:47Z Leandra 27 /* Leandra's Presentations: */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_User_Meeting_2014.pdf|Research Poster for Advanced Photon Source Users Meeting 2014]] *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:MM2015_LB.pdf|Jamming in Quasi-2D Self-Assembled Nanoparticle Monolayers, APS March Meeting 2015]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ==Teaching== *[[Media:2A_syllabus.pdf|2A Syllabus Summer Session 1 2015]] 6d9639656fa697f233fc61305db54fc4c7840d96 1723 1722 2015-08-31T21:57:04Z Leandra 27 /* Conference Presentations */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:MM2015_LB.pdf|Jamming in Quasi-2D Self-Assembled Nanoparticle Monolayers, APS March Meeting 2015]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ==Teaching== *[[Media:2A_syllabus.pdf|2A Syllabus Summer Session 1 2015]] df512eaafb238276b8bf87277e7db9da061ee4ef 1722 1705 2015-08-31T21:56:39Z Leandra 27 /* Conference Presentations */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] *[[Media:MM2015_LB.pdf|Jamming in Quasi-2D Self-Assembled Nanoparticle Monolayers, APS March Meeting 2015]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ==Teaching== *[[Media:2A_syllabus.pdf|2A Syllabus Summer Session 1 2015]] dc7d9ba239bf1b2a7c83f1c91797ceb6736e71b3 1705 1674 2015-06-22T22:11:25Z Leandra 27 =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ==Teaching== *[[Media:2A_syllabus.pdf|2A Syllabus Summer Session 1 2015]] d2d373524f9512ddd01031a3cb6f38d4d0b70b23 1674 1670 2014-03-05T22:02:00Z Leandra 27 /* Conference Presentations */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] *[[Media:MM2014_LB.pdf|Glassy Dynamics and Anomalous Diffusion in Self-Assembled Nanoparticle Monolayers, APS March Meeting 2014]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] 0b3f40958918f9569ad36d1efdbb9d64d0120482 1670 1669 2014-01-16T02:02:00Z Leandra 27 /* Graduation Requirements */ =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Ph.D. Candidacy/Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] 7d3a6f8e36f979fde267c4ab33f69058a7fef829 1669 1665 2014-01-16T02:01:24Z Leandra 27 =Contact Info:= * Office: Mayer Hall Addition 3631 <br /> * Email: lsbouche[at]physics[dot]ucsd[dot]edu =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] d78c3f5f1610e66b87ae28c15a9401805e5706ae 1665 1663 2014-01-16T01:53:50Z Leandra 27 moved [[Leandra Boucheron]] to [[User:Leandra]] =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ad5aed6dbdc939d7ccb130af791fd6df424ac033 1663 1662 2014-01-16T01:51:46Z Leandra 27 moved [[Leandra]] to [[Leandra Boucheron]] =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ad5aed6dbdc939d7ccb130af791fd6df424ac033 1662 1661 2014-01-16T01:48:48Z Leandra 27 /* Leandra Boucheron's Presentations: */ =Leandra's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] ad5aed6dbdc939d7ccb130af791fd6df424ac033 1661 2014-01-16T01:48:34Z Leandra 27 Created page with '=Leandra Boucheron's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: S…' =Leandra Boucheron's Presentations:= *[[Media:Leandra_oneslide.pdf|One Slide Research Summary]] ==Graduation Requirements== *[[Media:Leandra_advancement.pdf|Advancement Talk: Self-Assembled Iron Oxide Thin Films at the Liquid-Air Interface, September 2013]] *[[Media:RPC_Coffee_Rings.pdf|Research Progress Commitee Talk: Manipulating the Coffee Ring Effect, July 2012]] ==Conference Presentations== *[[Media:Leandra_MM2013.pdf|Structure, Dynamics, and Viscoelasticity of Nanoparticle Thin Films at the Liquid-Air Interface, APS March Meeting 2013]] ==Group Meeting Talks== *[[Media:Coffee_Ring_Presentation.pdf‎|Manipulating the Coffee Ring Effect]] *[[Media:Group_Meeting_RCP.pdf|Random Close Packing (RCP)]] b6979f342b06c3bf43217c5a2d514fcca9b9b0ac 2 303 1024 1023 2010-07-23T20:00:57Z Moses 24 == '''Contact Info:''' == [[Image:Moses_icon.jpg|left|thumb|350px|Moses Marsh]] * Email: [[Image:Mo_eml.jpg]]<br /> * Office: Mayer Hall 3621<br /> 880e68eba733028c3f7a2fffc9e02fdbfa2474d7 1023 999 2010-07-23T20:00:49Z Moses 24 == '''Contact Info:''' == [[Image:Moses_icon.jpg|left|thumb|350px|Moses Marsh]] * Email: [[Image:Mo_eml.jpg]]<br /> * Office: Mayer Hall 3621<br /> This is a page. 0355bb52bce3bda3080b29511c62c634d72f587c 999 2010-07-07T20:41:04Z Moses 24 New page: == '''Contact Info:''' == [[Image:Moses_icon.jpg|left|thumb|350px|Moses Marsh]] * Email: [[Image:Mo_eml.jpg]]<br /> * Office: Mayer Hall 3621<br /> == '''Contact Info:''' == [[Image:Moses_icon.jpg|left|thumb|350px|Moses Marsh]] * Email: [[Image:Mo_eml.jpg]]<br /> * Office: Mayer Hall 3621<br /> 880e68eba733028c3f7a2fffc9e02fdbfa2474d7 2 68 1703 1701 2015-06-13T21:59:44Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * Physics 2 Series: PHYS 2A, PHYS 2B, PHYS 2C, PHYS 2CL * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Academic Integrity Board Member, UC San Diego * Chair, Committee for Academic Scholarships and Honors, UC San Diego; * Chair, CSX, Soft X-ray Coherent Scattering Beamline, NSLS-II, Brookhaven National Laboratory. * Scientific Advisory Committee, Advanced Photon Source, Argonne National Lab, Chicago, IL; * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 a5140bcbfaac5a3bb4d01364e6f37695e8180782 1701 1700 2015-05-16T02:27:10Z Oleg 2 /* Professional Service: */ == '''Contact Info:''' == [[Image:Oleg.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My [[http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV]]<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * Physics 2 Series: PHYS 2A, PHYS 2B, PHYS 2C, PHYS 2CL * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Academic Integrity Board Member, UC San Diego * Chair, Committee for Academic Scholarships and Honors, UC San Diego; * Chair, CSX, Soft X-ray Coherent Scattering Beamline, NSLS-II, Brookhaven National Laboratory. * Scientific Advisory Committee, Advanced Photon Source, Argonne National Lab, Chicago, IL; * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 1c3242422c6cd64b54678db6825b9a3396355aed 1700 1652 2015-05-16T02:18:47Z Oleg 2 /* Teaching: */ == '''Contact Info:''' == [[Image:Oleg.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My [[http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV]]<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * Physics 2 Series: PHYS 2A, PHYS 2B, PHYS 2C, PHYS 2CL * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 08b89e27d6179d09bb967f2089033d66d342e20e 1652 1647 2013-11-07T19:45:07Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My [[http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV]]<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 bce02b369f116333ac588bc4f1cb3a1880ddd4cc 1647 1646 2013-11-07T19:35:37Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My [[http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV]]<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 2991a060559593ad7967abc03a24439cb5dd9a1b 1646 1622 2013-11-07T19:27:21Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My [[http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf CV]]<br /> ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 b385b3d263201b8d01f031cea06b831c0c937e29 1622 1538 2013-10-24T22:43:23Z Oleg 2 == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Professional Service:''' == * Member (elected), LCLS User Organizing Committee, SLAC, Stanford, CA; * Member (elected), APS User Organizing Committee, Argonne National Lab, IL * Member, Advanced Light Source Proposal Study Panel, Lawrence Berkeley National Lab; * Member, Advanced Photon Source Proposal Review Panel, Argonne National Lab; * Organizer, International Winter School on Superconductivity, Hong Kong, 2013 * Organizer, Focus Topic, APS March Meeting, Portland, Oregon, 2010 * Faculty Advisor, UCSD Undergraduates Society for Physics Students (SPS) * Member, Committee of Visitors, Materials Science and Engineering (MSE), Dept. Of Energy, Basic Energy Sciences (2012) * Reviewer for NSF, DOE, AFOSR, as well as European, Canadian and Asian funding agencies * Member, Beam Advisory Team, CHX (XPCS) Beamline NSLS-II, Brookhaven National Laboratory. * Organizer, UCSD Young Physicist Program (YPP) for K-12 * Member, Beam Advisory Team for CSX (Soft X-ray) Beamline, NSLS-II, Brookhaven National Laboratory. * Lecturer, Research Course on New X-Ray Sciences, DESY Hamburg, Germany * Lecturer, 2012 School for Liquid Surface X-ray Scattering, Argonne, IL * Lecturer, 2007 School for Liquid Surface X-ray Scattering, Argonne, IL * Organizer, Boston Area Undergraduate Physics Competition * Professional Referee. Nature Materials, Physical Review Letters, Physical Review B, Europhysics Letters, Journal of Physical Chemistry, Journal of Chemical Physics, Journal of Applied Physics, Journal of Alloys and Compounds == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' == ''Funding:''' == Current: * NSF CAREER * NSF * DOE * AFOSR * AFOSR MURI Past: * Hellman Foundation * UCSD Career Development Award * Argonne LDRD == '''Recent Presentations:''' == * 1. Magnetism Cross-Cut Review, ALS, Lawrence Berkeley National Lab, October 21, 2013 * 2. Physics Colloquium, University of Florida, Gainesville, FL, October 17, 2013 * 3. Workshop on Scientific Opportunities using High Repetition Rate X-ray Sources with 1-10 ps Bunch Length, SLAC, Stanford, CA, Oct. 4, 2013. * 4. Frontiers in Quantum Solids: Combining Soft X-rays and Ultra-fast Techniques, SLAC, Stanford, CA, Oct. 4, 2013. * 5. Plenary Talk, LCLS/SSRL Users Meeting, Stanford, CA, October 3, 2013 * 6. Liquid and Amorphous Materials (LAM-15) Conference, Beijing, China, September 2013 * 7. Physics Colloquium, Northern Illinois University, Carbondale, IL, Sept. 2013 * 8. NSLS-II Early Science Workshop, Brookhaven National Lab, Upton, NY Aug 13, 2013 * 9. DOE-BES Advisory Committee (BESAC) Light Sources Subcommittee Meeting, Bethesda, MD, July 11, 2013 * 10. California NanoSystems Institute (CNSI) Seminar, UC Santa Barbara, CA, May 31, 2013 * 11. Ptycho 2013, International workshop on the state and future of ptychography, Hohenkammer, Germany, May 6 2013 * 12. China/US Winter School and Workshop on Search for Superconductivity, Hong Kong, Jan. 22, 2013 * 13. Materials Science Division Seminar, Argonne National Lab, Argonne, IL, January 10, 2013 * 14. Physics Colloquium, University of Chicago, January 9, 2013 * 15. Workshop on Diffraction Limited Storage Rings, Spring-8, Japan, Dec. 12, 2012 * 16. Physics Colloquium, SUNY Stony Brook, October 2, 2012 * 17. Physics Colloquium, College of William and Mary, Sep.9, 2012 * 18. Next Generation Light Source Workshop, Berkeley National Lab, Aug. 28, 2012 * 19. Annual Oxide Interfaces Workshop, Harvard, August 7-8, 2012 * 20. DARPA PULSE Workshop, Arlington, VA, July 17, 2012 * 21. Condensed Matter Seminar, Brookhaven National Laboratory, May 2012 * 22. X-rays in 4th Dimensions Workshop, Chicago, IL, May 2012 * 23. Applied Physics & Photon Sciences Seminar, Stanford University, March 2012 * 24. Nanoengineering Seminar, UC San Diego, April 2012 * 25. Condensed Matter Seminar, SUNY Stony Brook, Feb. 2012 * 26. Physics Colloquium, Universidad Autonoma Madrid, Spain, October 2011 * 27. Physics Colloquium, Iowa State University, September 2011 * 28. Physics Colloquium, UC San Diego, September 2011 * 29. Gordon Conference on X-ray Science, August, 2011 * 30. Workshop on New Frontiers in Soft X-ray Scattering and Imaging: COSMIC, Berkeley, CA August 2011 * 31. XDL Workshop “Diffraction Microscopy, Holography and Ptychography using Coherent Beams,” Cornell University, June 2011 * 32. DOE BES Contractors Meeting, Warrenton, VA, October 2010 * 33. “Nanoscale X-ray Imaging of Novel Materials”, Workshop on Evolution and Control of Complexity, Argonne National Lab, October 2010 * 34. Condensed Matter Seminar, UC San Diego, October 2010 * 35. “X-ray and Infrared Nano-Imaging in Search for Novel Superconductors”, China-US Workshop on Novel Superconductors, Beijing, China Sept. 2010 * 36. APS Upgrade Liquid Surface Scattering Workshop, Argonne, IL, August 2010 * 37. Tenth International Conference on X-ray Microscopy (XRM-2010), Chicago, IL, August 2010 * 38. AFOSR Workshop on Search for Novel Superconductivity, Washington DC, August, 2010 * 39. The 11th International Surface X-ray and Neutron Scattering (SXNS-11) Evanston, IL, July 2010 * 40. Next Generation Light Source (NGLS) Condensed Matter Workshop, ALS, Lawrence Berkeley National Lab, May 2010 * 41. Colloquium, Physics Department, University of Kiel, Germany, March 2010 * 42. Research Course on New X-Ray Sciences, DESY Hamburg, Germany, March 2010 * 43. “Applications of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nanprobes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 44. “Fundamental aspects of X-ray Photon Correlation spectroscopy” 2nd School and Workshop on X-ray Micro and Nano probes (XMNP2009), Palinuro Salerno, Italy, June 2009 * 45. “A novel methodology for an enlightened search for new superconductors.” International Workshop on the Search for New Superconductors, Kanagawa, Japan, May 2009 * 46. “Domain wall dynamics in antiferromagnetic Chromium”, UCLA Physics Seminar, April 2009 * 47. “Surface freezing in liquid binary alloys”, NSF Review of Consortium for Advanced Radiation, University of Chicago, Argonne, IL, May 2008 * 48. “Domain wall dynamics in antiferromagnetic Chromium”, Workshop on Nanoscale phenomena near phase transitions, Center for Nanoscale Materials, Argonne National Laboratory, Argonne,I L, May 2008 * 49. “Dynamics in Quantum Antiferromagnets”, Rosalind Franklin Young Investigator Award Presentation, Advanced Photon Source, Argonne National Laboratory, Argonne, IL May 2008 * 50. “Domain Wall Dynamics in Antiferromagnetic Chromium”, Advanced Light Source Seminar, Lawrence Berkeley National Laboratory, Berkeley, CA, April 2008 * 51. “Phase defects in spin-ordered materials”, NSLS-II Coherent Diffraction Imaging workshop, Brookhaven National Laboratory, Upton, NY, March 2008 * 52. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium”, NSLS-II XPCS workshop, Brookhaven National Laboratory, Upton, NY, January 2008 * 53. “XPCS Study of Antiferromagnetic Domain Dynamics in Chromium” DOE Review of Advanced Photon Source, Argonne, IL, December 2007 * 54. “Studies of Capillary Dynamics with X-ray Diffuse Scattering”, Liquid Surface X-ray Scattering School, Argonne National Laboratory, Argonne, IL, November 2007 * 55. “XPCS Studies of Antiferromagnetic Domain Wall Dynamics in Elemental Chromium” SSRL/LCLS Users Meeting and Workshops, New Opportunities in Imaging and X-ray Microscopy, Stanford University, Menlo Park, CA, October 2007 * 56. “XPCS Studies of Antiferromagnetic Domain Wall Fluctuations” DOE Review of Advanced Photon Source, Argonne National Lab, Argonne, IL, September 2007 * 57. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, X-ray Nanoprobe Workshop, Argonne, IL, May 2007 * 58. “XPCS Study of Antiferromagnetic Domain Wall Dynamics”, Coherence-2007, International Workshop on Phase Retrieval and Coherent Scattering, Monterey, CA, July 2007 * 59. “Dynamics of Spin Density Wave Domains in Chromium”, The International Conference on Strongly Correlated Electron Systems, Houston, TX, May 2007 * 60. “Domain Wall Dynamics in Quantum Antiferromagnets”, CNM Users Meeting, Argonne, IL, May 2007 * 61. “Dynamics in quantum magnets”, APS Users Seminar, Argonne, IL, April 2007 * 62. “Dynamics in quantum magnets”, Colloquium, University of Illinois at Urbana-Champaign, IL, March 2007 * 63. “Dynamics of domain walls in Chromium”, Physics Colloquium, Iowa State University, Ames, IA, February 2007 * 64. “Dynamics of domain walls in Chromium”, Condensed Matter Seminar, UC San Diego, La Jolla, CA, January 2007 0c8bfcfd791b2beef01a28a90867d1f92deb43a6 1538 1056 2013-03-21T16:29:11Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Associate Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009 and Spring 2010: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 648fb6d89e464f64b79c24474da26538441012e8 1056 738 2010-08-06T00:33:15Z Oleg 2 /* Teaching: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009 and Spring 2010: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 0326ab92b7011e046b5be15d36bdbaffefdd853e 738 715 2009-12-16T03:52:31Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * NSF CAREER (Faculty Early Career Development) Award, 2010 * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' cff3fa73728fd5c635e4dc4d69cf46f50f52a718 715 656 2009-09-17T21:58:05Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall 3210 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 2b65e11039bb41e858dde41b676cb903f742bc09 656 655 2009-06-29T15:39:41Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://academicaffairs.ucsd.edu/aps/adeo/fcdp/ UCSD Faculty Career Development Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 613c25e53ce0472050c8d0f80bd84e2f8d8d02a3 655 639 2009-06-29T15:37:22Z Oleg 2 /* Honors and Awards: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * UCSD Faculty Career Development Award, 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' e79b9ce7149a559425298c36cf991d11a8b74969 639 633 2009-06-11T16:44:58Z Oleg 2 /* Contact Info: */ == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Oleg's_Office|Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 378247a2c0ede0341ba0c0a0d91c8b168f6bfd44 633 293 2009-06-11T16:33:26Z Oleg 2 == '''Contact Info:''' == [[Image:Oleg_Shpyrko_web_med2.jpg|left|thumb|350px|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ('''[[Where is it]]'''?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> * My upcoming travel info via [[Tripit]] ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * [http://x-ray.ucsd.edu/mediawiki/images/b/b3/OlegShpyrko_CV.pdf Curriculum Vitae] * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] * Group [http://oleg.ucsd.edu/contact.htm Contact Info] <br /> <br /><br /><br /><br /><br /> == '''Honors and Awards:''' == * [http://academicaffairs.ucsd.edu/faculty/awards/hellman/default.htm Hellman Faculty Fellow Award], 2009 * [http://www.aps.anl.gov/News/APS_News/Content/APS_NEWS_20080424.php Rosalind Franklin Young Investigator Award], 2008 * [http://nano.anl.gov/ Center for Nanoscale Materials] Distinguished Postdoctoral Fellow ([http://www.anl.gov/ Argonne National Laboratory]), 2005-2007 * [http://www.seas.harvard.edu/ Harvard School of Engineering and Applied Sciences Postdoctoral Fellow], 2004-2005 * R. E. Marshak fellowship 1995-1996 * [http://en.wikipedia.org/wiki/Lebedev_Physical_Institute P. N. Lebedev Physical Institute (FIAN)] Fellowship, 1995 * [http://en.wikipedia.org/wiki/Soros_Foundation Soros Foundation] Fellowship 1994-1995 * Excimer Fellowship 1994-1995 * Silver medal, [http://en.wikipedia.org/wiki/International_Physics_Olympiad International Physics Olympiad] (IPhO), Williamsburg, USA (1993) == '''Teaching:''' == Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] == '''Selected Publications:''' == * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] '''[http://x-ray.ucsd.edu/mediawiki/index.php/Publications Full publication list]''' 4640c018256c76ef0ad6c17a592d06aaafd88a3a 293 292 2009-04-22T05:54:47Z Oleg 2 == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 ([[Where is it]]?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 3e8379fab6ff51b101c5a780881e1f15b740d1ec 292 209 2009-04-22T05:54:22Z Oleg 2 == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm ([[Where is it]]?)<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 25971a7df931a5aafa60acb9e3ecaa384b59c752 209 189 2009-04-17T04:31:34Z Oleg 2 Protected "[[User:Oleg]]" [edit=sysop:move=sysop] == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)]<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 1886750f586290febd72193491a5e9c6768d6127 189 188 2009-04-15T19:02:01Z Oleg 2 == '''Prof. Oleg Shpyrko, Contact Info:''' == [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] * Email: [[Image:Oleg_emsm.jpg]]<br /> * Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)]<br /> * Phone (Google Voice, preferred): 858-952-1248<br /> * Phone (Office): 858-534-3066<br /> ---- Assistant Professor, Department of Physics<br /> University of California San Diego<br /> Ph.D. 2004, Physics, Harvard University<br /> * Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' * 2008 Rosalind Franklin Young Investigator Award * Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] 1886750f586290febd72193491a5e9c6768d6127 188 2009-04-15T18:59:08Z Oleg 2 New page: '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] Email: [[Image:Oleg_emsm.jpg]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (W... '''Prof. Oleg Shpyrko, Contact Info:''' [[Image:Oleg.jpg|thumb|left|Prof. Oleg Shpyrko]] Email: [[Image:Oleg_emsm.jpg]] Office: Mayer Hall Addition 3681 [http://oleg.ucsd.edu/map.htm (Where is it?)] Phone (Google Voice, preferred): 858-952-1248 Phone (Office): 858-534-3066 ---- Assistant Professor Department of Physics University of California San Diego Ph.D. 2004, Physics, Harvard University Research Group Webpage: [http://oleg.ucsd.edu oleg.ucsd.edu] ---- '''Honors and Awards:''' 2008 Rosalind Franklin Young Investigator Award Center for Nanoscale Materials Distinguished Postdoctoral Fellow 2005-2007 ---- '''Teaching:''' Spring 2009: * [http://x-ray.ucsd.edu/PHYS_100C/ Physics 100C, "Electromagnetism"] * [http://webct.ucsd.edu Physics 2CL, "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter 2009: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] Winter and Spring 2008: [http://webct.ucsd.edu Physics 2CL "Physics Laboratory: Electricity and Magnetism, Waves and Optics"] '''Selected Publications:''' * O. G. Shpyrko et al., "Direct measurement of antiferromagnetic domain fluctuations" [http://www.nature.com/nature/journal/v447/n7140/edsumm/e070503-10.html Nature 447, 68 (2007)] * R. Jaramillo et al., "Microscopic and Macroscopic Signatures of Antiferromagnetic Domains [http://link.aps.org/doi/10.1103/PhysRevLett.98.117206 Phys. Rev. Lett. 98, 117206 (2007)] * O. G. Shpyrko et al., "Surface Crystallization in a Liquid AuSi Alloy" [http://www.sciencemag.org/cgi/content/abstract/313/5783/77 Science 313, 77 (2006)] * K. J. Alvine, O. G. Shpyrko et al., "Capillary filling of anodized alumina nanopore arrays [http://link.aps.org/doi/10.1103/PhysRevLett.97.175503 Phys. Rev. Lett. 97, 175503 (2006)] * O. G. Shpyrko et al., "Atomic-Scale Surface Demixing in a Eutectic Liquid BiSn Alloy" [http://prola.aps.org/abstract/PRL/v95/i10/e106103 Phys. Rev. Lett. 95, 106103 (2005)] [http://oleg.ucsd.edu/publications.htm Full publication list] c474b0cc302bfb45fec523ee54cb8a2c1b994579 2 45 104 2009-04-05T15:32:35Z Oleg 2 New page: if (mwCustomEditButtons) { mwCustomEditButtons[mwCustomEditButtons.length] = { "imageFile": "http://images.wikia.com/central/images/7/74/Button_comment.png", "speedTip": "C... if (mwCustomEditButtons) { mwCustomEditButtons[mwCustomEditButtons.length] = { "imageFile": "http://images.wikia.com/central/images/7/74/Button_comment.png", "speedTip": "Comment visible only for editors", "tagOpen": "<!-- ", "tagClose": " -->", "sampleText": "Insert comment here"} } 2367d4a66761575334b9b8c205c924ac9dbcdf4a 2 335 1123 1122 2010-10-24T01:24:25Z Sebastian 30 Redirected page to [[User:Sebastian]] #REDIRECT [[User:Sebastian]] 26722a8f7fbdaccb4382b5e673e2c6676747b529 1122 1121 2010-10-24T01:21:45Z Sebastian 30 /* Contact Info: */ #REDIRECT [[Sebastian_Dietze]] 7562359ccac93dc10b85c405010e4d572744d8f5 1121 2010-10-24T01:10:05Z Sebastian 30 Created page with '== Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze…' == Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze[at]physics.ucsd.edu 51b7ae5f0e1b26163b02fe98129c5f8ba25e25b2 2 334 1373 1125 2012-01-20T18:45:44Z Sebastian 30 /* Contact Info: */ == Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze[at]physics[dot]ucsd[dot]edu f47f458733c53722d20e4e5f4fcb5ae46573c8f3 1125 1124 2010-10-24T01:25:44Z Sebastian 30 == Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze[at]physics.ucsd.edu 51b7ae5f0e1b26163b02fe98129c5f8ba25e25b2 1124 1120 2010-10-24T01:24:36Z Sebastian 30 /* Contact Info: */ #REDIRECT [[User:Sebastian]] 26722a8f7fbdaccb4382b5e673e2c6676747b529 1120 2010-10-24T01:09:46Z Sebastian 30 Created page with '== Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze…' == Contact Info:''' == [[File:Sebastian_icon.jpg |thumb|left|Sebastian Dietze]] * Office: Mayer Hall Addition 3671 <br /> * Phone (Office): 858-246-0115<br /> * Email: sdietze[at]physics.ucsd.edu 51b7ae5f0e1b26163b02fe98129c5f8ba25e25b2 2 329 1107 2010-10-23T20:44:05Z Veronica 28 Created page with 'Veronica' Veronica 99de5b28b1201e270bcf3f552853f167095a66f0 2 219 691 690 2009-07-21T19:59:54Z Yeling121 6 [[Yeling's fitting result]] ed22dede74dc71dbe3013473835dfd4d83b4ce27 690 686 2009-07-21T19:58:38Z Yeling121 6 [[Media:summary.ppt]] [[Media:fittinglog.ppt]] [[Media:Jul2009.ppt]] 6468ba537d23995e31843936908c986a1ab3e536 686 685 2009-07-21T19:49:03Z Yeling121 6 [[test]] 01269099e7d080e4084f7a608503959f5328db65 685 684 2009-07-21T19:48:37Z Yeling121 6 test[[Image:Example.jpg]] 3b7127d5f82887090c165a8044c0570f029cf29c 684 2009-07-21T19:47:41Z Yeling121 6 New page: [[Media:test]] [[Media:test]] 935358d1014cc000f48c7edde67da2e0d7ef336e 3 100 284 2009-04-22T05:05:34Z Oleg 2 New page: test --~~~~ test --[[User:Oleg|oleg]] 05:05, 22 April 2009 (UTC) 716cd6b63cbcd7c1bdcc69a3323d18f63c9e283e 4 128 739 346 2009-12-16T03:55:28Z Oleg 2 This is a group wiki for [http://oleg.ucsd.edu/ Prof. Shpyrko Group] at the [http://physics.ucsd.edu/ Physics Department] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego]. This wiki is maintained by [[Oleg Shpyrko]]. 08418dab3c236cbb4ca1639f3559be492cbb91f9 346 343 2009-04-24T20:25:57Z Oleg 2 This is a group wiki for [http://oleg.ucsd.edu/ Prof. Shpyrko Group] at the [http://physics.ucsd.edu/ Physics Department] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego]. 8035ce347abbe95cbe07a0887fc9771cc0dc8081 343 2009-04-24T15:12:19Z Oleg 2 New page: This is a group wiki for [http://oleg.ucsd.edu/ Prof. Shpyrko Group] at [http://physics.ucsd.edu/Physics Department] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San... This is a group wiki for [http://oleg.ucsd.edu/ Prof. Shpyrko Group] at [http://physics.ucsd.edu/Physics Department] at the [http://en.wikipedia.org/wiki/Ucsd University of California, San Diego]. 91ce16b1d9453e29ebca6e479f4db0a4e5947d35 4 237 766 749 2010-03-02T03:44:28Z Oleg 2 Removing all content from page da39a3ee5e6b4b0d3255bfef95601890afd80709 749 2010-01-29T13:49:10Z PureHotLove 19 /*Entertainment*/ '''[http://www.matchmaker.com/mm/dating/ontario-london.htm London Dating]''', meet thousands of London singles through one of the best London online dating sites. Matchmaker.com has great instant messenger and live video London chat service for our members. 7d60766f37f28b3ce860d78bc8cefdf70789628f 4 124 325 2009-04-22T20:30:44Z Oleg 2 Redirecting to [[Group Calendar:]] #REDIRECT [[Group_Calendar:]] 8132498bb6cc77d31e2309b4b5094e44bc30e6bb 6 146 363 2009-04-26T15:04:52Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 149 366 2009-04-26T15:05:59Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 148 365 2009-04-26T15:05:40Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 369 1460 2012-06-13T03:06:11Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 368 1442 2012-05-20T15:55:03Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 386 1586 2013-05-10T03:45:11Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 372 1501 2012-11-20T00:58:42Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 373 1505 2012-11-20T01:05:47Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 371 1497 2012-11-14T20:41:43Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 290 979 2010-07-02T17:17:06Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 291 980 2010-07-02T17:17:34Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 292 981 2010-07-02T17:17:52Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 332 1117 2010-10-24T00:24:39Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 333 1118 2010-10-24T00:30:07Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 307 1011 2010-07-21T20:05:02Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 308 1012 2010-07-21T20:05:30Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 355 1270 2011-08-19T01:01:25Z Sebastian 30 Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this prob Abstract: With the use of personal computers and other electronics becoming more wide spread, energy consumption of these devices is becoming a large portion of all electricity used. Spin-based electronics is a solution that could greatly reduce this problem in the near future, while allowing us to reduced integrated circuitry size. A review of "spintronics" will be given, including recent work of generating pure spin currents and spin injection into semiconductors. Finally, a scheme for creating pure spin-based digital logic devices will be discussed. 18f76d900a7dbd74454a2fb85c76625ace67a35f 6 376 1522 2013-01-29T21:56:27Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 375 1521 2013-01-29T21:55:38Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 400 1704 2015-06-22T22:09:57Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 42 101 2009-04-04T16:12:29Z Oleg 2 BI-9000AT digital autocorrelator software manual (Windows 9KDLSW Ver.1.25) BI-9000AT digital autocorrelator software manual (Windows 9KDLSW Ver.1.25) e08eaf2df1e6cb6a34f62674ea5a3a71545a9044 6 144 361 2009-04-26T15:04:15Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 155 373 2009-04-26T15:15:24Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 152 369 2009-04-26T15:06:49Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 154 372 2009-04-26T15:14:32Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 151 371 368 2009-04-26T15:13:50Z Oleg 2 uploaded a new version of "[[Image:APS 2008.2a.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 368 2009-04-26T15:06:32Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 157 375 2009-04-26T15:43:16Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 145 362 2009-04-26T15:04:34Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 127 338 2009-04-24T02:41:22Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 57 141 2009-04-13T02:06:45Z Oleg 2 Abate Speckle Visibility Spectroscopy Abate Speckle Visibility Spectroscopy e883d915af103eabfccd08590cfdbcb1c70dcb1d 6 328 1104 2010-10-23T20:40:20Z Veronica 28 Keyhole Coherent Diffractive Imaging Keyhole Coherent Diffractive Imaging 9435fb922898de510ae09e4500444e1a40c23163 6 60 147 2009-04-13T02:16:19Z Oleg 2 Adam Abate, PhD Thesis 2006 UPenn (Durian Group) Adam Abate, PhD Thesis 2006 UPenn (Durian Group) 4f6d7a7924254593e49037447467916eff52111b 6 96 273 2009-04-22T01:01:32Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 350 1231 2011-07-16T00:55:37Z Alisa 32 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 330 1114 1108 2010-10-24T00:07:05Z Sebastian 30 This is a test of uploading a file. It is now an orphan and should be deleted by admin. b4dddd7b2ad654e0607c451945cbec36c941e8e7 1108 2010-10-23T23:28:49Z Sebastian 30 This is a test of uploading a file This is a test of uploading a file e2576cfe509462ba255e37749ee661985fd9c7d1 6 423 1930 2018-11-25T17:50:45Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 415 1833 2018-03-05T21:26:14Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 410 1820 1795 2016-10-25T19:14:30Z Andrej 45 uploaded a new version of "[[File:Andrej.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1795 2016-10-25T17:47:30Z Andrej 45 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 417 1838 2018-03-12T18:22:13Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 210 649 648 2009-06-28T06:32:29Z Oleg 2 uploaded a new version of "[[Image:Andrew McLeod.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 648 2009-06-28T06:31:36Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 211 650 2009-06-28T06:33:44Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 212 652 2009-06-28T06:35:39Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 213 653 2009-06-28T06:37:18Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 389 1635 2013-11-05T20:53:39Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 419 1855 2018-11-02T01:13:27Z Nelson 42 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 691 2266 2265 2023-08-29T17:07:07Z Samstanwyck 12 Samstanwyck uploaded a new version of &quot;[[File:Asdasdasd.zip]]&quot; da39a3ee5e6b4b0d3255bfef95601890afd80709 2265 2023-08-29T17:05:50Z Samstanwyck 12 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 108 302 301 2009-04-22T16:29:33Z Oleg 2 uploaded a new version of "[[Image:Ash icon.jpg]]": Ashish Tripathi da39a3ee5e6b4b0d3255bfef95601890afd80709 301 2009-04-22T16:29:14Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 147 364 2009-04-26T15:05:22Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 293 982 2010-07-02T17:23:56Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 21 49 2009-04-01T03:26:48Z Oleg 2 D. D. Awschalom and M. E. Flatte, "Challenges for semiconductor spintronics," Nat Phys 3, 153 (2007). D. D. Awschalom and M. E. Flatte, "Challenges for semiconductor spintronics," Nat Phys 3, 153 (2007). e0adcb1b95c803389be65113b9403878de6cd957 6 43 102 2009-04-04T16:18:52Z Oleg 2 BI-200SM Goniometer Manual, v. 2.0 BI-200SM Goniometer Manual, v. 2.0 052e821cf63b457750835b79f8f443fcdc1b6a46 6 56 140 2009-04-13T02:04:29Z Oleg 2 Speckle Visibility Spectroscopy Speckle Visibility Spectroscopy ee1255fabee28ac00f56ea0d8ca14c4d369bf552 6 35 89 2009-04-04T15:35:41Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 352 1245 1243 2011-07-20T21:42:58Z Brandon 35 uploaded a new version of "[[File:Brandon icon.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1243 2011-07-20T21:36:46Z Brandon 35 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 314 1021 2010-07-23T19:08:38Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 80 233 2009-04-22T00:12:29Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 79 229 2009-04-22T00:08:52Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 22 50 2009-04-01T03:28:54Z Oleg 2 C. Chappert, A. Fert, and F. N. V. Dau, "The emergence of spin electronics in data storage," Nat. Mat. 6, 813 (2007). C. Chappert, A. Fert, and F. N. V. Dau, "The emergence of spin electronics in data storage," Nat. Mat. 6, 813 (2007). e9ba9f4302a582cafef06675279939cbc598fbb7 6 385 1582 2013-04-30T21:20:04Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 364 1378 2012-02-18T02:49:48Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 227 708 2009-07-21T21:49:51Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 97 274 2009-04-22T01:01:49Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 312 1018 2010-07-21T20:22:06Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 313 1019 2010-07-21T20:43:10Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 411 1942 1941 2018-11-25T19:57:31Z Dcela 47 Dcela uploaded a new version of &quot;[[File:Devin.gif]]&quot;: Reverted to version as of 17:54, 25 October 2016 da39a3ee5e6b4b0d3255bfef95601890afd80709 1941 1800 2018-11-25T19:57:02Z Dcela 47 Dcela uploaded a new version of &quot;[[File:Devin.gif]]&quot; da39a3ee5e6b4b0d3255bfef95601890afd80709 1800 2016-10-25T17:54:39Z Nelson 42 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 134 351 2009-04-26T14:59:17Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 324 1100 2010-10-23T20:33:53Z Veronica 28 Digital Holography Recording Numerical Reconstruction Digital Holography Recording Numerical Reconstruction 89ad3bab2a9db3ecd1591f044276024e217ba581 6 379 1530 2013-02-20T01:07:38Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 294 983 2010-07-02T17:24:20Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 342 1152 2010-11-23T04:40:03Z EdwinF 31 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 5 8 2009-03-21T00:20:47Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 119 316 2009-04-22T17:30:08Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 117 314 2009-04-22T17:25:10Z Oleg 2 GdFe resonant speckle pattern GdFe resonant speckle pattern 24caa0c32ec18668d7da8f3ddc19b9d498c7b730 6 424 1981 2018-11-26T20:13:36Z Elamb 51 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 408 1782 2016-02-24T03:47:22Z Eylul 43 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 118 315 2009-04-22T17:25:56Z Oleg 2 Near-Field Resonant X-ray Speckle pattern Near-Field Resonant X-ray Speckle pattern 8fc33d1951a1b1a189fd982294218fee7c9cdb57 6 116 317 313 2009-04-22T17:34:28Z Oleg 2 uploaded a new version of "[[Image:FeGdenergyscan.gif]]" FeGd energy scan through resonance 6e5dcfc7a63cbb8b42b3af44ed9f60dcbae18531 313 2009-04-22T17:23:10Z Oleg 2 FeGd energy scan through resonance FeGd energy scan through resonance 6e5dcfc7a63cbb8b42b3af44ed9f60dcbae18531 6 15 43 2009-04-01T03:09:15Z Oleg 2 A. Fert, “Nobel Lecture: Origin, development, and future of spintronics,” Reviews of Modern Physics 80, 1517-14 (2008) A. Fert, “Nobel Lecture: Origin, development, and future of spintronics,” Reviews of Modern Physics 80, 1517-14 (2008) 4d64dd52401bdcb303504565519bc33722012bef 6 92 269 2009-04-22T00:59:06Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 91 268 2009-04-22T00:58:39Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 14 42 2009-04-01T03:03:18Z Oleg 2 Eric E. Fullerton and Ivan K. Schuller, “The 2007 Nobel Prize in Physics: Magnetism and Transport at the Nanoscale,” ACS Nano 1, no. 5 (December 1, 2007): 384-389. Eric E. Fullerton and Ivan K. Schuller, “The 2007 Nobel Prize in Physics: Magnetism and Transport at the Nanoscale,” ACS Nano 1, no. 5 (December 1, 2007): 384-389. a4ddac550ee606e80e2890b82b46240eadd0846e 6 19 47 2009-04-01T03:19:06Z Oleg 2 Prof. Eric Fullerton, lecture on GMR readheads Prof. Eric Fullerton, lecture on GMR readheads cd9c2017bb29605d995c80489723c54c631bef89 6 201 605 604 2009-06-07T15:53:17Z Oleg 2 uploaded a new version of "[[Image:GROUP 051708.jpg]]": Group Outing, 05/17/2008 da39a3ee5e6b4b0d3255bfef95601890afd80709 604 2009-06-07T15:52:50Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 198 601 2009-06-07T15:45:50Z Oleg 2 Group Outing, 05/17/2008 Group Outing, 05/17/2008 f0b8cbfcb213c0ca507c1addae72a05ea98023d5 6 295 984 2010-07-02T17:24:40Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 296 1016 985 2010-07-21T20:08:40Z Moses 24 uploaded a new version of "[[Image:Granular dynamics lluvia apr29 2010.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 985 2010-07-02T17:24:57Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 322 1094 2010-10-23T20:08:15Z Veronica 28 =Fall 2010:= * [[Media:Graphene_Oct15th2010.ppt‎|Jong Woo Kim, Properties of Graphene Presentation]] =Fall 2010:= * [[Media:Graphene_Oct15th2010.ppt‎|Jong Woo Kim, Properties of Graphene Presentation]] a649385c41f49b47b5b7be649e88a582ee1af18d 6 7 21 2009-03-21T14:47:04Z Oleg 2 Review these equations Review these equations 508ff08b9dbd1d7ecaaff8a81d4cd85e0234b242 6 399 1787 1695 2016-06-03T18:10:00Z Oleg 2 uploaded a new version of "[[File:GroupPhoto Jan26 2015.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1695 2015-02-03T16:14:33Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 374 1514 2012-12-10T22:16:51Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 16 44 2009-04-01T03:14:39Z Oleg 2 Peter A. Grünberg, "Nobel Lecture: From spin waves to giant magnetoresistance and beyond" Rev. Mod. Phys. 80, 1531 (2008) Peter A. Grünberg, "Nobel Lecture: From spin waves to giant magnetoresistance and beyond" Rev. Mod. Phys. 80, 1531 (2008) 60d5d17e50a1394be4823b763befa9608f66e478 6 25 57 2009-04-01T17:45:40Z Oleg 2 S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002). S. M. Gruner, M. W. Tate, and E. F. Eikenberry, "Charge-Coupled Device Area X-Ray Detectors," Rev. Sci. Instrum. 73, 2815 (2002). 7cd53f251c2a41a2774a52ddc709666473df3b0f 6 422 1925 2018-11-25T17:11:30Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 38 93 2009-04-04T15:41:07Z Oleg 2 MicroMax-007 HF MicroMax-007 HF cb6e3f1144a5dc9e97013a2575eaba65ddfb5b86 6 267 882 2010-04-28T19:33:54Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 99 280 2009-04-22T04:30:18Z Oleg 2 PHYS 100C, Homework #2 Solutions PHYS 100C, Homework #2 Solutions fc3b746df079a9d2c6781559fd7c9b241f43bb41 6 263 863 2010-04-20T02:16:45Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 265 875 2010-04-26T03:24:55Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 269 894 2010-05-04T01:23:10Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 72 202 2009-04-17T01:03:24Z Oleg 2 PHYS 100C HW #3 PHYS 100C HW #3 6e91f2d045c95b95b098de5dd77e5a48b18423a7 6 163 401 2009-04-29T04:00:58Z Oleg 2 Phys 100C, Homework #3 Solutions Phys 100C, Homework #3 Solutions 5da2b53d91f8c284d210d9388af700ca9790bb41 6 64 169 162 2009-04-14T22:03:05Z Oleg 2 uploaded a new version of "[[Image:Homework 1.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 162 2009-04-14T17:42:19Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 65 172 2009-04-14T22:12:04Z Oleg 2 HW #1 Solutions 100C HW #1 Solutions 100C a90244f61f9939992a50d7305d7625141a2a93df 6 264 866 2010-04-21T13:35:42Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 55 139 2009-04-13T02:03:01Z Oleg 2 Capillary Wrinkling paper Capillary Wrinkling paper cf3cb03e9fb41ea1037c299e78a74f053903595c 6 203 607 2009-06-07T15:53:56Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 115 310 2009-04-22T16:47:31Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 84 245 2009-04-22T00:24:25Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 420 1856 2018-11-02T08:35:50Z Ivanz 48 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 348 1214 2011-07-15T23:06:18Z Jacob 33 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 347 1509 1216 2012-11-30T00:14:10Z Leandra 27 uploaded a new version of "[[File:Jacob icon.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1216 1215 2011-07-15T23:20:23Z Jacob 33 uploaded a new version of "[[File:Jacob icon.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1215 1213 2011-07-15T23:08:16Z Jacob 33 uploaded a new version of "[[File:Jacob icon.jpg]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1213 2011-07-15T23:03:33Z Jacob 33 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 305 1009 2010-07-21T04:51:42Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 377 1524 2013-01-31T23:27:52Z JimWingert 36 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 247 779 777 2010-03-03T02:37:15Z Oleg 2 uploaded a new version of "[[Image:Jongwoo icon.jpg]]": Jong Woo Kim 150x200 Jong Woo Kim 2de886c60203a0b6e52b7d67792bba061867bb12 777 2010-03-03T02:34:14Z Oleg 2 Jong Woo Kim Jong Woo Kim 2de886c60203a0b6e52b7d67792bba061867bb12 6 409 1785 2016-05-31T16:38:02Z Josh 40 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 225 699 2009-07-21T20:07:20Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 226 702 2009-07-21T20:09:38Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 228 711 2009-07-29T16:15:37Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 224 697 696 2009-07-21T20:05:41Z Yeling121 6 uploaded a new version of "[[Image:Jun2009.ppt]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 696 2009-07-21T20:04:27Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 162 396 2009-04-28T23:37:41Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 106 299 2009-04-22T16:28:28Z Oleg 2 Jyoti Mohanty Jyoti Mohanty ff376385124505b48fa90a4aa3f753ec2e7dd2f7 6 179 504 2009-05-06T15:33:46Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 404 1755 2016-02-05T03:04:31Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 391 1659 2014-01-16T01:46:40Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 402 1724 2015-08-31T21:57:56Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 390 1658 2014-01-16T01:44:18Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 349 1226 2011-07-16T00:42:31Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 392 1660 2014-01-16T01:47:42Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 11 34 2009-03-31T18:26:42Z Oleg 2 Lecture 1, Waves, EM Waves in Vacuum, March 31st Lecture 1, Waves, EM Waves in Vacuum, March 31st 4b13690436e5ddcb0e5c64353edb558a403651f0 6 32 81 74 2009-04-03T17:18:26Z Oleg 2 uploaded a new version of "[[Image:Lecture 2 Apr2.pdf]]" Lecture 2, Phys 100C, April 2, 2009 71970a94d092d103ede0349f49cecfdb1f72536d 74 2009-04-03T01:46:05Z Oleg 2 Lecture 2, Phys 100C, April 2, 2009 Lecture 2, Phys 100C, April 2, 2009 71970a94d092d103ede0349f49cecfdb1f72536d 6 181 512 511 2009-05-07T20:37:24Z Oleg 2 uploaded a new version of "[[Image:Lecture 7 May11.ppt]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 511 510 2009-05-07T20:33:25Z Oleg 2 uploaded a new version of "[[Image:Lecture 7 May11.ppt]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 510 2009-05-07T18:47:38Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 82 239 2009-04-22T00:18:56Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 141 358 2009-04-26T15:03:06Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 93 270 2009-04-22T01:00:13Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 122 320 2009-04-22T17:47:03Z Oleg 2 Loic Jacot Descombes Loic Jacot Descombes 09e9329d7f19947812ac11417eb78d4f984084e6 6 719 2295 2023-09-05T12:19:50Z Samstanwyck 12 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 12 39 38 2009-03-31T19:27:28Z Oleg 2 Masters Thesis, Loic Jacot Descombes, ETH Zurich (research performed at UC San Diego), March 2009 b6961e5bccfb49e02dfbd3bbba249903153c4054 38 2009-03-31T19:26:01Z Oleg 2 Masters Thesis for Loic Jacot Descombes, ETH Zurich & UC San Diego, March 2009 Masters Thesis for Loic Jacot Descombes, ETH Zurich & UC San Diego, March 2009 f1ce15fb120739c3bceb07c2bebce7b91142d379 6 24 56 2009-04-01T17:44:08Z Oleg 2 Lutz, G. (1997). Semiconductor Radiation Detectors. Berlin: Springer. Lutz, G. (1997). Semiconductor Radiation Detectors. Berlin: Springer. cc94b36b618fa4b53e55bfe252bd689921e1d002 6 102 288 2009-04-22T05:17:47Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 103 289 2009-04-22T05:22:09Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 40 95 2009-04-04T15:51:41Z Oleg 2 Rigaku MM-007HFM Drawings Rigaku MM-007HFM Drawings 6960402adbb24d0947811e3492abfaab7f1ace46 6 396 1673 2014-03-05T22:00:25Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 401 1721 2015-08-31T21:55:40Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 111 305 2009-04-22T16:32:03Z Oleg 2 Magnetic Force Microscopy (MFM) images of magnetic domains formed in thin films of MnAs on GaAs Magnetic Force Microscopy (MFM) images of magnetic domains formed in thin films of MnAs on GaAs 445f376524d752a7e139476b1725e39d98fed13f 6 112 307 306 2009-04-22T16:44:49Z Oleg 2 uploaded a new version of "[[Image:Magdom2.jpg]]" Low Energy Electron Microscopy (LEEM) and X-ray Magnetic Circular Dichroism (XMCD) and photoemission electron microscopy (PEEM) of MnAs on GaAs. c59187aa1f0fcf02994bb14ba741882840e6244d 306 2009-04-22T16:33:45Z Oleg 2 Low Energy Electron Microscopy (LEEM) and X-ray Magnetic Circular Dichroism (XMCD) and photoemission electron microscopy (PEEM) of MnAs on GaAs. Low Energy Electron Microscopy (LEEM) and X-ray Magnetic Circular Dichroism (XMCD) and photoemission electron microscopy (PEEM) of MnAs on GaAs. c59187aa1f0fcf02994bb14ba741882840e6244d 6 114 309 2009-04-22T16:47:06Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 113 308 2009-04-22T16:45:49Z Oleg 2 MFM images of magnetic "maze" domain patterns in GdFe multilayer films MFM images of magnetic "maze" domain patterns in GdFe multilayer films 24d10520067e1f3d1a4f50ac11b65ce74675e63f 6 249 791 2010-03-08T15:37:49Z Oleg 2 magnus icon 150x204 magnus icon 150x204 ade35713f98749a8da543c6362c8f531a619196e 6 83 242 2009-04-22T00:21:55Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 90 265 2009-04-22T00:44:45Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 189 544 2009-05-22T23:04:48Z Oleg 2 The most important physics experiment was a "failure" The most important physics experiment was a "failure" 3536fcdbf9818e49c3f4b374027675da7cfbf75a 6 110 304 2009-04-22T16:30:12Z Oleg 2 Michael Folkerts Michael Folkerts 7a0bd58c9d6709ff81e5b72ec859bf3601e0b8de 6 302 998 2010-07-07T20:40:16Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 343 1168 2011-02-11T03:13:44Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 360 1337 2011-09-15T03:56:44Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 317 1070 2010-08-12T22:34:43Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 310 1014 2010-07-21T20:07:28Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 246 778 776 2010-03-03T02:36:47Z Oleg 2 uploaded a new version of "[[Image:Moses icon.jpg]]": Moses Marsh 150x200 Moses Marsh 9c3a7c8cd205783d60c91b8948a3b1faf0bb2c47 776 2010-03-03T02:33:38Z Oleg 2 Moses Marsh Moses Marsh 9c3a7c8cd205783d60c91b8948a3b1faf0bb2c47 6 51 130 2009-04-13T01:47:13Z Oleg 2 NI PCIe-1429 User Manual NI PCIe-1429 User Manual 904e22218a25186880aaab4a5ee49ad3a60652db 6 412 1804 2016-10-25T17:56:49Z Nelson 42 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 413 1819 2016-10-25T18:18:05Z Nelson 42 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 120 1230 1229 2011-07-16T00:53:52Z Alisa 32 uploaded a new version of "[[File:No image female.gif]]":&#32;Reverted to version as of 17:41, 22 April 2009 No Image 33cf70a4b3f11840370671d423b9dae2569f4215 1229 318 2011-07-16T00:52:19Z Alisa 32 uploaded a new version of "[[File:No image female.gif]]" No Image 33cf70a4b3f11840370671d423b9dae2569f4215 318 2009-04-22T17:41:18Z Oleg 2 No Image No Image 33cf70a4b3f11840370671d423b9dae2569f4215 6 121 1793 1792 2016-10-25T17:41:07Z Andrej 45 uploaded a new version of "[[File:No image male.gif]]" No Image 33cf70a4b3f11840370671d423b9dae2569f4215 1792 1239 2016-10-25T17:38:58Z Andrej 45 uploaded a new version of "[[File:No image male.gif]]" No Image 33cf70a4b3f11840370671d423b9dae2569f4215 1239 1238 2011-07-20T21:27:50Z Brandon 35 uploaded a new version of "[[File:No image male.gif]]":&#32;Reverted to version as of 17:41, 22 April 2009 No Image 33cf70a4b3f11840370671d423b9dae2569f4215 1238 319 2011-07-20T21:26:40Z Brandon 35 uploaded a new version of "[[File:No image male.gif]]" No Image 33cf70a4b3f11840370671d423b9dae2569f4215 319 2009-04-22T17:41:34Z Oleg 2 No Image No Image 33cf70a4b3f11840370671d423b9dae2569f4215 6 309 1013 2010-07-21T20:06:47Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 362 1346 2011-09-26T02:38:30Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 229 712 2009-09-17T21:52:31Z Oleg 2 MHA 3210 (Oleg's Office) MHA 3210 (Oleg's Office) 19fc638f8c05d99d5f67d0019b08b59b5b4c0ed8 6 230 714 2009-09-17T21:57:32Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 6 1702 10 2015-06-13T21:54:42Z Oleg 2 uploaded a new version of "[[File:Oleg.jpg]]" Oleg Shpyrko a915499a2a5ec6c67634cbad645642fe7dc50790 10 2009-03-21T00:25:15Z Oleg 2 Oleg Shpyrko Oleg Shpyrko a915499a2a5ec6c67634cbad645642fe7dc50790 6 172 1645 729 2013-11-07T19:26:46Z Oleg 2 uploaded a new version of "[[File:OlegShpyrko CV.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 729 631 2009-12-11T17:34:18Z Oleg 2 uploaded a new version of "[[Image:OlegShpyrko CV.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 631 485 2009-06-11T16:27:09Z Oleg 2 uploaded a new version of "[[Image:OlegShpyrko CV.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 485 2009-05-03T04:31:17Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 169 475 2009-05-02T17:10:29Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 199 602 2009-06-07T15:46:38Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 170 476 2009-05-02T17:10:58Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 200 603 2009-06-07T15:46:49Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 9 28 2009-03-26T20:40:22Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 10 29 2009-03-26T20:44:07Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 406 1775 2016-02-09T02:18:44Z Olesya 41 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 405 1774 2016-02-09T02:16:45Z Olesya 41 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 407 1777 2016-02-09T02:20:38Z Olesya 41 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 363 1348 2011-09-26T02:43:39Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 126 333 2009-04-24T02:22:54Z Oleg 2 PHYS 100C Homework #4, due Thur April 30th PHYS 100C Homework #4, due Thur April 30th a55b8d3da0ff7628ed36eac5ec30e6446b191213 6 166 451 449 2009-05-01T05:13:19Z Oleg 2 uploaded a new version of "[[Image:PHYS100C HOMEWORK5.doc.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 449 427 2009-05-01T04:16:44Z Oleg 2 uploaded a new version of "[[Image:PHYS100C HOMEWORK5.doc.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 427 2009-04-30T22:43:35Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 270 896 2010-05-04T18:39:09Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 276 914 2010-05-13T00:40:05Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 190 546 2009-05-23T04:28:07Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 165 423 422 2009-04-30T19:09:04Z Oleg 2 uploaded a new version of "[[Image:PHYS100C HW 4.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 422 2009-04-30T19:05:51Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 285 948 2010-06-10T01:06:38Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 284 947 2010-06-10T01:04:43Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 207 640 2009-06-11T20:59:11Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 177 931 499 2010-06-01T14:55:38Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C HW4 Solutions.pdf]]" PHYS 100C HW4 Solutions 4596dcd6a8f636be6ecc580104be6b398cd1347f 499 2009-05-06T04:46:54Z Oleg 2 PHYS 100C HW4 Solutions PHYS 100C HW4 Solutions 4596dcd6a8f636be6ecc580104be6b398cd1347f 6 184 932 528 2010-06-01T14:57:16Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C HW5 Solutions.pdf]]" PHYS 100C HW #5 Solutions 5c9ae5a2a0f72aacd6c00c90c8eae115f18656d0 528 2009-05-19T13:53:13Z Oleg 2 PHYS 100C HW #5 Solutions PHYS 100C HW #5 Solutions 5c9ae5a2a0f72aacd6c00c90c8eae115f18656d0 6 194 933 574 2010-06-01T14:58:05Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C HW6 Solutions.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 574 2009-06-03T22:36:24Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 195 934 580 2010-06-01T14:59:05Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C HW7 Solutions.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 580 2009-06-05T01:28:04Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 279 925 2010-05-20T02:04:13Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 62 153 2009-04-14T04:24:23Z Oleg 2 PHYS 100C, Homework #2 PHYS 100C, Homework #2 32fa6d73ffd08c016815f23c6264adb4b21b1eae 6 254 830 2010-04-02T23:27:40Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 260 852 2010-04-13T14:29:40Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 164 420 2009-04-30T18:40:09Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 176 497 2009-05-06T04:44:05Z Oleg 2 PHYS 100C Lecture11 May 5 PHYS 100C Lecture11 May 5 d4b087b517f01a96a0b3a165b45d735d436a8009 6 251 816 2010-03-30T04:38:07Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 256 835 2010-04-06T03:28:06Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 257 839 2010-04-08T00:02:26Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 73 206 2009-04-17T02:44:42Z Oleg 2 PHYS 100C Lecture6 Apr16 PHYS 100C Lecture6 Apr16 e9a84d1b7b1f397e749ead4491868495fd2c3308 6 159 387 2009-04-28T19:57:22Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 182 513 2009-05-09T13:31:38Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 266 887 880 2010-04-29T02:16:42Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C Lecture 13.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 880 2010-04-27T04:27:24Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 268 888 2010-04-29T02:16:55Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 188 537 2009-05-20T03:58:18Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 272 901 2010-05-04T19:02:25Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 191 553 2009-05-23T05:12:47Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 271 899 2010-05-04T18:59:36Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 192 569 2009-05-27T18:03:24Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 275 911 2010-05-11T03:54:10Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 193 571 2009-06-03T22:33:33Z Oleg 2 Lecture 17 Lecture 17 a7d4e78e7569aa2890fd9d191319a55bcc27b7f6 6 277 920 2010-05-17T14:31:45Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 253 827 2010-04-01T05:58:46Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 278 921 2010-05-17T14:32:56Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 281 938 2010-06-01T15:03:37Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 282 939 2010-06-01T15:05:02Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 283 940 2010-06-01T15:06:01Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 255 833 2010-04-04T02:46:11Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 48 119 116 2009-04-07T20:37:37Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C Lecture 3 April 7.pdf]]" Physics 100C, Lecture #3, April 7 2009 1706161fd761cd2a3a90496bd4b8b73a86cca717 116 2009-04-07T18:47:29Z Oleg 2 Physics 100C, Lecture #3, April 7 2009 Physics 100C, Lecture #3, April 7 2009 1706161fd761cd2a3a90496bd4b8b73a86cca717 6 49 120 2009-04-09T20:32:03Z Oleg 2 PHYS 100C, Lecture 4, April 9, 2009 PHYS 100C, Lecture 4, April 9, 2009 daae1cb7134b1a850f6069938eab21a99fa9b6fc 6 63 160 2009-04-14T16:53:37Z Oleg 2 PHYS 100C Lecture 5 April 14 PHYS 100C Lecture 5 April 14 30d1a9d8f903c9739c4d0c33099f36d9e93ec1b3 6 258 847 2010-04-11T14:10:03Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 259 850 2010-04-13T14:25:53Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 98 279 2009-04-22T04:25:06Z Oleg 2 PHYS 100C Lecture 7 April 21 PHYS 100C Lecture 7 April 21 6df93112a7adc606ba9e2c00b4b943ccb4887335 6 261 857 2010-04-15T05:05:59Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 125 330 2009-04-24T00:15:29Z Oleg 2 PHYS 100C Lecture 8, April 23 PHYS 100C Lecture 8, April 23 a56a9fac80214fe669ba3acadbf2a6b087ce1e90 6 274 910 2010-05-11T03:52:02Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 280 927 2010-05-20T03:08:33Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 262 861 859 2010-04-20T01:01:57Z Oleg 2 uploaded a new version of "[[Image:PHYS 100C Lectures 9-11 waveguides.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 859 2010-04-20T00:40:12Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 185 529 2009-05-19T13:55:23Z Oleg 2 PHYS 100C Midterm PHYS 100C Midterm 73e76ee67e95e4862b9687be6bc569747c0f3062 6 187 534 2009-05-20T01:38:40Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 186 530 2009-05-19T13:56:10Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 273 907 2010-05-08T04:28:37Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 50 126 2009-04-11T00:23:03Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 208 643 2009-06-12T03:38:16Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 173 486 2009-05-06T01:43:34Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 174 488 487 2009-05-06T02:00:12Z Oleg 2 uploaded a new version of "[[Image:PHYS 2D May 5.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 487 2009-05-06T01:46:43Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 180 506 2009-05-06T21:30:16Z Oleg 2 Phys 2D May 6 Lecture Phys 2D May 6 Lecture c232aaa5c080cdd988b456928c887c957438708f 6 140 357 2009-04-26T15:02:49Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 81 236 2009-04-22T00:15:20Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 156 374 2009-04-26T15:30:35Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 171 481 2009-05-02T17:36:15Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 421 1864 1863 2018-11-06T18:16:37Z Peters 49 Peters uploaded a new version of &quot;[[File:Peters.jpg]]&quot; da39a3ee5e6b4b0d3255bfef95601890afd80709 1863 2018-11-06T18:12:32Z Peters 49 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 85 248 2009-04-22T00:27:05Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 183 522 2009-05-14T12:10:47Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 153 370 2009-04-26T15:07:14Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 139 356 2009-04-26T15:02:30Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 138 355 2009-04-26T15:02:06Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 136 353 2009-04-26T15:01:16Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 137 354 2009-04-26T15:01:40Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 135 352 2009-04-26T14:59:54Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 132 349 2009-04-26T14:58:41Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 142 359 2009-04-26T15:03:26Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 131 348 2009-04-26T14:58:11Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 143 360 2009-04-26T15:03:48Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 297 986 2010-07-02T17:25:16Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 222 694 693 2009-07-21T20:01:34Z Yeling121 6 uploaded a new version of "[[Image:Previous fitting.ppt]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 693 689 2009-07-21T20:00:39Z Yeling121 6 uploaded a new version of "[[Image:Previous fitting.ppt]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 689 2009-07-21T19:52:17Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 326 1102 2010-10-23T20:36:47Z Veronica 28 Diffractive imaging of Highly Coherent X-ray Fields Diffractive imaging of Highly Coherent X-ray Fields 51fe917a8175b1c5f2bc9823df117fd01306e9ba 6 39 94 2009-04-04T15:50:09Z Oleg 2 RIGAKU MM-007HF Brochure RIGAKU MM-007HF Brochure c72a1aad49dcc6818ea654e8fd53b3dbdc2e2872 6 370 1482 2012-10-26T00:56:55Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 95 272 2009-04-22T01:01:01Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 27 59 2009-04-01T17:48:46Z Oleg 2 M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002) M. J. Renzi, M. W. Tate, A. Ercan et al., "Pixel Array Detectors for Time Resolved Radiography," Rev. Sci. Instrum. 73, 1621 (2002) f18bcd4187ab10914adb6259293266ba307abf84 6 418 1842 2018-03-13T20:42:17Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 26 58 2009-04-01T17:47:43Z Oleg 2 G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999). G. Rossi, M. Renzi, E. F. Eikenberry et al., "Tests of a Prototype Pixel Array Detector for Microsecond Time-Resolved X-Ray Diffraction," Journal of Synchrotron Radiation 6, 1096 (1999). 3250449118c2b3861082d7c0e77b30a2c26fd791 6 693 2268 2023-09-04T13:56:06Z Samstanwyck 12 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 381 1542 2013-03-27T01:18:47Z Oleg 2 SHPYRKO GROUP, MARCH 2013 SHPYRKO GROUP, MARCH 2013 f37a7047f33d36b675c248fd2f9bdb6d81039a57 6 380 1540 2013-03-27T00:43:47Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 378 1528 2013-02-18T23:18:29Z JimWingert 36 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 231 717 2009-09-17T22:05:42Z Oleg 2 Sam Stanwyck's image Sam Stanwyck's image 614fe91eb280086e1b140d1f3fed3d2da28f6333 6 416 1836 2018-03-12T17:46:58Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 109 303 2009-04-22T16:29:55Z Oleg 2 Sarah Garcia Sarah Garcia 30c1e9c82ae8e466af926c8a475e41bfd55b07e9 6 61 148 2009-04-13T02:23:20Z Oleg 2 Light Scattering Review Light Scattering Review 6fcacdc2ca460d35affeef99068c647a2e19e500 6 197 596 594 2009-06-07T00:01:16Z Oleg 2 uploaded a new version of "[[Image:Sebastian icon.jpg]]": Sebastian Dietze da39a3ee5e6b4b0d3255bfef95601890afd80709 594 2009-06-06T23:59:20Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 316 1256 1252 2011-08-18T17:48:10Z Oleg 2 Group Photo, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra Boucheron, Brandon Stevenson, Jong Woo Kim, Edwin Fohtung c7bee96f18b509371703381ee00c95c3712160f8 1252 1251 2011-08-18T04:38:42Z Oleg 2 uploaded a new version of "[[File:Shpyrko Group Aug2010 large.jpg]]":&#32;Shpyrko Research Group at UCSD, Aug 17, 2011 (l-to-r): Oleg Shpyrko, Moses Marsh, Sebastian Dietze, Ash Tripathi, Alisa Agafonova, Jacob Stanley, Gurleen Bal, Yeling Dai, Leandra B Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari c16a785cd06f0de6f524098da4288ab5eb8c9fb3 1251 1053 2011-08-18T04:36:49Z Oleg 2 uploaded a new version of "[[File:Shpyrko Group Aug2010 large.jpg]]":&#32;Shpyrko Group, August 2011 Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari c16a785cd06f0de6f524098da4288ab5eb8c9fb3 1053 1042 2010-08-06T00:22:08Z Oleg 2 Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neill, Leandra Boucheron, Sebastian Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: graduate student Ash Tripathi (working/based in Argonne National Lab near Chicago) and undergraduates: Sam Stanwyck, Michael Folkerts, LLuvia Rodriguez and Anache Bandari c16a785cd06f0de6f524098da4288ab5eb8c9fb3 1042 2010-08-06T00:04:59Z Oleg 2 Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: Ash Tripathi (working/based in Argonne National Lab near Chicago, Group Photo, Aug 5, 2010. L-to-R: David Kirszenblat, Charles Neil, Leandra Boucheron, Sebastien Dietze, Veronica Burnett, Jong Woo Kim, Moses Marsh, Yeling Dai, Oleg Shpyrko. Not pictured: Ash Tripathi (working/based in Argonne National Lab near Chicago, IL) 9efe086c389bbb1a0954058e3922b6f4080316ab 6 202 606 2009-06-07T15:53:45Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 205 1041 613 2010-08-06T00:00:44Z Oleg 2 uploaded a new version of "[[File:Shpyrko group June 08 2009.jpg]]" Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Missing from group photo: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia. e020a3af879951d42f5f80f90a16c34588a4f8f4 613 2009-06-09T04:33:59Z Oleg 2 Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Missing from group photo: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia. Group Photo, June 8, 2009. L-to-R: Michael Folkerts, Sebastian Dietze, Lluvia Rodriguez, Andrew McLeod, Ash Tripathi, Yeling Dai, Oleg Shpyrko. Missing from group photo: Dr. Jyoti Mohanty, Anache Bandari, Sam Stanwyck, Sarah Garcia. e020a3af879951d42f5f80f90a16c34588a4f8f4 6 87 256 2009-04-22T00:33:57Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 387 1611 2013-07-29T04:18:44Z Leandra 27 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 306 1010 2010-07-21T05:00:34Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 53 151 133 2009-04-13T02:41:38Z Oleg 2 uploaded a new version of "[[Image:SpL2048-140k Manual.pdf]]" spL2048-140k Basler line-scan CCD camera Manual 7f097e9c470fc8352fe963d4429c2bd8572ba8a8 133 2009-04-13T01:51:52Z Oleg 2 spL2048-140k Basler line-scan CCD camera Manual spL2048-140k Basler line-scan CCD camera Manual 7f097e9c470fc8352fe963d4429c2bd8572ba8a8 6 133 350 2009-04-26T14:58:58Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 77 221 2009-04-21T23:48:41Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 17 45 2009-04-01T03:16:40Z Oleg 2 Ivan Schuller, Spintronics lecture Ivan Schuller, Spintronics lecture 78d26819215d57155e4746286a774a7d7c5fd7b1 6 414 1830 2018-03-05T21:18:54Z Dcela 47 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 8 26 2009-03-26T20:17:04Z Oleg 2 Syllabus, PHYS 100C Spring 2009 quarter. Updated March 26, 2009 Syllabus, PHYS 100C Spring 2009 quarter. Updated March 26, 2009 c6d21c75edb2419010b362d87fb8d742f3176a18 6 250 809 2010-03-23T14:49:08Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 28 60 2009-04-01T17:49:40Z Oleg 2 M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. Instrum. 76, 081301 (2005). M. W. Tate, D. Chamberlain, and S. M. Gruner, "Area X-Ray Detector Based on a Lens-Coupled Charge-Coupled Device," Rev. Sci. Instrum. 76, 081301 (2005). fff15a011755820ee36c190551a625929aeb7a68 6 315 1022 2010-07-23T20:00:04Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 94 271 2009-04-22T01:00:39Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 130 347 2009-04-25T01:20:12Z Oleg 2 UCSD Physics Department Brochure, 2009 UCSD Physics Department Brochure, 2009 9b580d6ad4623fc9551e8cbd2f01d0c0efbaaf5d 6 218 677 2009-07-01T05:37:00Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 217 675 2009-07-01T05:32:39Z Oleg 2 Physics Dept UCSD Physics Dept UCSD 6cd09fc96574f3aa0797e10254ac418798a61f05 6 318 1074 1073 2010-09-07T18:50:13Z JongWoo 26 [[Media:VO2_experiment_summary(Aug.2010@APS).pdf]]VO2 Experiment summary (Aug.20~25.2010@APS) f72038c464b1bc1a523be40ba151c51b2729d803 1073 2010-09-07T18:38:19Z JongWoo 26 VO2 Experiment summary (Aug.20~25.2010@APS) VO2 Experiment summary (Aug.20~25.2010@APS) 2eb6e6e013e793ad5b7bfec13d6547d17742f21d 6 311 1015 2010-07-21T20:08:01Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 248 789 2010-03-05T04:15:00Z Oleg 2 Veronica_icon.jpg Veronica_icon.jpg cedec2fd4a3f67cce63711f4e7da5c1e2cda6c34 6 382 1547 2013-03-27T22:29:58Z JimWingert 36 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 298 1066 987 2010-08-09T23:01:34Z JongWoo 26 uploaded a new version of "[[File:Vt mfm mnas may27th2010.pdf]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 987 2010-07-02T17:25:32Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 692 2267 2023-09-04T13:19:30Z Samstanwyck 12 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 89 262 2009-04-22T00:41:19Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 31 67 2009-04-01T18:21:08Z Oleg 2 H. Winick and A. Bienenstock, "Synchrotron radiation research", Ann. Rev. Nucl. Sci. 28, 33–113 (1978) H. Winick and A. Bienenstock, "Synchrotron radiation research", Ann. Rev. Nucl. Sci. 28, 33–113 (1978) 2784bbc98387d13327571124b313fd6fdf0e04b4 6 30 66 2009-04-01T18:15:22Z Oleg 2 H. Winick, "Synchrotron radiation sources - Present capabilities and future directions," Journal of Synchrotron Radiation 5, 168 (1998). H. Winick, "Synchrotron radiation sources - Present capabilities and future directions," Journal of Synchrotron Radiation 5, 168 (1998). d90bd0694f0a67656e91e30bc62de0f6d52cf012 6 20 48 2009-04-01T03:22:48Z Oleg 2 S. Wolf, D. Awschalom, R. Buhrman et al., “Spintronics: A spin-based electronics vision for the future,” Science 294, 1488 (2001) S. Wolf, D. Awschalom, R. Buhrman et al., “Spintronics: A spin-based electronics vision for the future,” Science 294, 1488 (2001) 9313cd4ebb372e9237830925f893c98594a0cac9 6 88 259 2009-04-22T00:37:00Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 58 144 2009-04-13T02:09:38Z Oleg 2 XPCS presentation Prof. Doug Durian XPCS presentation Prof. Doug Durian d62db4760cf3a60ada1bc745725b3dcbed52ded7 6 338 1131 2010-10-25T06:04:52Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 339 1133 2010-10-25T08:17:40Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 340 1144 2010-11-06T14:01:22Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 344 1188 2011-05-09T06:14:15Z Sebastian 30 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 365 1381 2012-03-20T09:53:30Z Sebastian 30 XPCS Analysis Tool version 2.03.20 XPCS Analysis Tool version 2.03.20 d469abd1a59f662193a3b5a4d6224023aab4bd1d 6 86 253 2009-04-22T00:31:36Z Mohanty 4 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 346 1192 2011-05-27T22:59:16Z Moses 24 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 107 300 2009-04-22T16:28:55Z Oleg 2 Yeling Dai Yeling Dai 10da8da0c1d260a7bbd7c66ccfa091bb2b229575 6 388 1644 1643 2013-11-05T21:16:47Z Yeling121 6 uploaded a new version of "[[File:Yeling icon.png]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1643 1642 2013-11-05T21:16:13Z Yeling121 6 uploaded a new version of "[[File:Yeling icon.png]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1642 1641 2013-11-05T21:14:47Z Yeling121 6 uploaded a new version of "[[File:Yeling icon.png]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1641 1640 2013-11-05T21:14:05Z Yeling121 6 uploaded a new version of "[[File:Yeling icon.png]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1640 1631 2013-11-05T21:12:24Z Yeling121 6 uploaded a new version of "[[File:Yeling icon.png]]" da39a3ee5e6b4b0d3255bfef95601890afd80709 1631 2013-11-05T20:48:46Z Yeling121 6 da39a3ee5e6b4b0d3255bfef95601890afd80709 6 150 367 2009-04-26T15:06:14Z Oleg 2 da39a3ee5e6b4b0d3255bfef95601890afd80709 8 104 294 2009-04-22T05:56:21Z Oleg 2 New page: * navigation ** mainpage|mainpage ** portal-url|portal ** currentevents-url|currentevents ** recentchanges-url|recentchanges ** randompage-url|randompage ** helppage|help * navigation ** mainpage|mainpage ** portal-url|portal ** currentevents-url|currentevents ** recentchanges-url|recentchanges ** randompage-url|randompage ** helppage|help e73334396f83c1fdab34e439a22a4f3d071be24e 10 158 384 2009-04-27T01:51:10Z Oleg 2 New page: <!-- begin quick bar --> <div style="float: right; margin: 0 0 1em 1em"> {| cellpadding="2" cellspacing="0" style="border: 1px solid #9866FF; font-size:85%; background-color: #f3f3ff" widt... <!-- begin quick bar --> <div style="float: right; margin: 0 0 1em 1em"> {| cellpadding="2" cellspacing="0" style="border: 1px solid #9866FF; font-size:85%; background-color: #f3f3ff" width="250" {{ #if: {{{image|}}} | {{quickbar topimage|image={{{image|}}}}} }} {{ #if: {{{location|}}} | {{quickbar image|heading=Location|image={{{location|}}}}} }} {{ #if: {{{flag|}}} | {{quickbar image|heading=Flag|image={{{flag|}}}}} }} |- | colspan="2" style="text-align: center; border-bottom: 1px solid #C9AFFF; border-top: 1px solid #C9AFFF; background-color: #ddddff" | '''Quick Facts''' {{ #if: {{{capital|}}} | {{quickbar item|heading=Capital|value={{{capital|}}}}} | {{quickbar empty}} }} {{ #if: {{{government|}}} | {{quickbar item|heading=Government|value={{{government|}}}}} | {{quickbar empty}} }} {{ #if: {{{currency|}}} | {{quickbar item|heading=Currency|value={{{currency|}}}}} | {{quickbar empty}} }} {{ #if: {{{area|}}} | {{quickbar item|heading=Area|value={{{area|}}}}} | {{quickbar empty}} }} {{ #if: {{{population|}}} | {{quickbar item|heading=Population|value={{{population|}}}}} | {{quickbar empty}} }} {{ #if: {{{language|}}} | {{quickbar item|heading=Language|value={{{language|}}}}} | {{quickbar empty}} }} {{ #if: {{{religion|}}} | {{quickbar item|heading=Religion|value={{{religion|}}}}} | {{quickbar empty}} }} {{ #if: {{{electricity|}}} | {{quickbar item|heading=[[Electrical systems|Electricity]]|value={{{electricity|}}}}} | {{quickbar empty}} }} {{ #if: {{{callingcode|}}} | {{quickbar item|heading=[[List of country calling codes|Calling Code]]|value={{{callingcode|}}}}} | {{quickbar empty}} }} {{ #if: {{{tld|}}} | {{quickbar item|heading=Internet TLD|value={{{tld|}}}}} | {{quickbar empty}} }} {{ #if: {{{timezone|}}} | {{quickbar item|heading=[[Time zones|Time Zone]]|value={{{timezone|}}}}} | {{quickbar empty}} }} |} </div><rdf> <http://wikitravel.org/en/{{PAGENAMEE}}> dcterms:spatial <urn:x-wikitravel:en:{{PAGENAMEE}}> . <urn:x-wikitravel:en:{{PAGENAMEE}}> a wts:Country . </rdf> <!-- end quick bar --><noinclude> This template places a consistently-formatted summary of standard information at the top of every country article. Note that per current consensus, quickbars should ONLY be used for articles about sovereign '''countries''' and their separately-administered '''territories''' (generally speaking, places with their own 2-character ISO country code and Internet Top-Level Domain). It should not be used for U.S. states, Canadian provinces, or any other article type. Please discuss on the [[Template talk:Quickbar]] page if you feel that quickbars should be used for other article types. It uses the following format (note that the lead and location images MUST NOT be wider than 250px, and the flag image should be 108px to match those we got from the CIA factbook): <pre><nowiki> {{quickbar | image=[[Image:image|noframe|250px]] | flag=[[Image:flag|noframe|108px]] | location=[[Image:location|noframe|250px]] | capital=[[Capital]] | government=type of government | currency=currency used | area=land area | population=recent population estimate | language=[[Language1]], [[Language2]], Language3, ... | religion=common religion(s) | electricity=electrical voltage and current (plug type) | callingcode=calling code | tld=internet top level domain | timezone=time zone(s) in relation to UTC }} </nowiki></pre> </noinclude> fff2a4bf248b3f4ab0bd187e72c4900d9bb2ba0a 14 715 2291 2023-09-04T17:55:05Z Samstanwyck 12 Created page with "Don't miss out on this incredible opportunity to get free Xbox gift cards. 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